WorldWideScience

Sample records for stockpile emergency preparedness

  1. Planning guidance for the Chemical Stockpile Emergency Preparedness Program

    Energy Technology Data Exchange (ETDEWEB)

    Shumpert, B.L.; Watson, A.P.; Sorensen, J.H. [and others

    1995-02-01

    This planning guide was developed under the direction of the U.S. Army and the Federal Emergency Management Agency (FEMA) which jointly coordinate and direct the development of the Chemical Stockpile Emergency Preparedness Program (CSEPP). It was produced to assist state, local, and Army installation planners in formulating and coordinating plans for chemical events that may occur at the chemical agent stockpile storage locations in the continental United States. This document provides broad planning guidance for use by both on-post and off-post agencies and organizations in the development of a coordinated plan for responding to chemical events. It contains checklists to assist in assuring that all important aspects are included in the plans and procedures developed at each Chemical Stockpile Disposal Program (CSDP) location. The checklists are supplemented by planning guidelines in the appendices which provide more detailed guidance regarding some issues. The planning guidance contained in this document will help ensure that adequate coordination between on-post and off-post planners occurs during the planning process. This planning guide broadly describes an adequate emergency planning base that assures that critical planning decisions will be made consistently at every chemical agent stockpile location. This planning guide includes material drawn from other documents developed by the FEMA, the Army, and other federal agencies with emergency preparedness program responsibilities. Some of this material has been developed specifically to meet the unique requirements of the CSEPP. In addition to this guidance, other location-specific documents, technical studies, and support studies should be used as needed to assist in the planning at each of the chemical agent stockpile locations to address the specific hazards and conditions at each location.

  2. From nuclides to nerve gas: The development of the Chemical Stockpile Emergency Preparedness Exercise Program

    International Nuclear Information System (INIS)

    Gant, K.S.; Adler, M.V.

    1991-01-01

    The Army and the Federal Emergency Management Agency established the Chemical Stockpile Emergency Preparedness Program (CSEPP), to improve emergency preparedness around each location storing the nation's aging stockpile of unitary chemical weapons. The CSEPP requires that a series of exercises be conducted at each location on a regular schedule. The CSEPP exercise program drew upon the existing Army and civilian exercises. Merging the exercise traditions of both the communities and installations into a joint exercise program acceptable to both sides and the particular nature of the hazard required a number of adjustments in the usual approaches. 14 refs., 1 fig

  3. The challenge of measuring emergency preparedness: integrating component metrics to build system-level measures for strategic national stockpile operations.

    Science.gov (United States)

    Jackson, Brian A; Faith, Kay Sullivan

    2013-02-01

    Although significant progress has been made in measuring public health emergency preparedness, system-level performance measures are lacking. This report examines a potential approach to such measures for Strategic National Stockpile (SNS) operations. We adapted an engineering analytic technique used to assess the reliability of technological systems-failure mode and effects analysis-to assess preparedness. That technique, which includes systematic mapping of the response system and identification of possible breakdowns that affect performance, provides a path to use data from existing SNS assessment tools to estimate likely future performance of the system overall. Systems models of SNS operations were constructed and failure mode analyses were performed for each component. Linking data from existing assessments, including the technical assistance review and functional drills, to reliability assessment was demonstrated using publicly available information. The use of failure mode and effects estimates to assess overall response system reliability was demonstrated with a simple simulation example. Reliability analysis appears an attractive way to integrate information from the substantial investment in detailed assessments for stockpile delivery and dispensing to provide a view of likely future response performance.

  4. Emergency Preparedness

    CERN Document Server

    2001-01-01

    The trends of RPC work in the area of preparedness for nuclear and radiological accidents are listed. RPC in cooperation with Swedish Government developed the project on preparation for iodine prophylaxis in case of accident at Ignalina NPP and arranged seminar on emergency preparedness issues in 2001.

  5. Emergency preparedness

    CERN Document Server

    Cennini, E; Oortman Gerlings, P

    2009-01-01

    On September 19th 2008, a technical fault was at the centre of a sequence of events which hampered the performance of certain equipments of the LHC 3-4 sector. Once the first effects of this sequence of events were detected, the behaviour of the CERN staff confronted to this complex and critical situation became the centre of the risk control process. During such a downward spiral the preparation of all stakeholders is essential and should respect the (apparently) basic principles of emergency preparedness. Preparedness towards normal operation of CERN facilities towards minor up to major emergency situations will be presented. The main technical, organisational and legal frameworks of the CERN emergency preparedness will be recalled, highlighting the CERN risk management and risk control strategy. Then, the sequence of events experienced by different stakeholders on September 19th will be reported, thus starting the learned lessons process.

  6. Emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Jackson, J. [Key Safety and Blowout Control Corp., Sylvan Lake, AB (Canada)

    2001-07-01

    This presentation included several slides depicting well control and emergency preparedness. It provided information to help in pre-emergency planning for potential well control situations. Key Safety and Blowout Control Corp has gained experience in the Canadian and International well control industry as well as from the fires of Kuwait. The president of the company lectures on the complications and concerns of managers, wellsite supervisors, service companies, the public sector, land owners, government agencies and the media. The slides presented scenarios based on actual blowout recovery assignments and described what types of resources are needed by a well control team. The presentation addressed issues such as the responsibility of a well control team and what they can be expected to do. The issue of how government agencies become involved was also discussed. The presentation combines important information and descriptive images of personal experiences in fire fighting and well control. The emergency situations presented here demonstrate the need for a thorough understanding of preplanning for emergencies and what to expect when a typical day in the oil patch turns into a high stress, volatile situation. tabs., figs.

  7. Emergency preparedness

    International Nuclear Information System (INIS)

    1998-01-01

    According the conception of the Emergency Response Centre (ERC) of the Nuclear Regulatory Authority of the Slovak Republic (NRA), and the obtained experience from exercises, and as well as on the basis of recommendations of international missions, the NRA SR started, in 1997 the ERC extension. The new room enable the work for radiation protection group, reactor safety and logistic group separately. At the same time special room was build for work of the NECRA Technical Support Group of the Emergency Commission for Radiation Accidents of the SR.This group co-operates closely with ERC while evaluation the situation, and by using the information system of the NRA and database of ERC to generate the conditions of nuclear facilities in once of emergency. Extension of the mentioned rooms was carried out. The financing by the European Union helped to build the project RAMG. In this way the NRA gained a working site which, with its equipment and parameters belongs to the top working sites of regulatory bodies of developed European countries. The NRA preparation of exercise and special staff education was carried out in 1997, for employees of the NRA and members of Emergency Headquarters (EH) for work in ERC in case of nuclear installation accident. The task of education of member of EH was their preparation for carrying out three exercises. These exercises are described. In the area of emergency preparedness, in accordance with inspection plan of the Office, 7 team inspections were carried out in individual localities; in NPP Bohunice, two in NPP Mochovce and one in Bohunice Conditioning Centre for radioactive wastes. Solution of the task of development of science and technology in the area of 'Development of technical and programme means for analyses of accidents and solutions of crisis situations'continued in 1997. Another regulations were elaborated for activity of members of EH of the NRA. The following was was carried out: selection of data for transfer and the

  8. Emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Yanev, P.I.; Hom, S.; Kircher, C.A.; Bailey, N.D.

    1985-01-01

    These lecture notes include the following subject areas: (1) earthquake mitigation planning - general approach and in-house program; (2) seismic protection of equipment and non-structural systems; and (3) disaster preparedness and self help program. (ACR)

  9. Emergency preparedness

    International Nuclear Information System (INIS)

    Yanev, P.I.; Hom, S.; Kircher, C.A.; Bailey, N.D.

    1985-01-01

    These lecture notes include the following subject areas: (1) earthquake mitigation planning - general approach and in-house program; (2) seismic protection of equipment and non-structural systems; and (3) disaster preparedness and self help program

  10. Emergency preparedness

    International Nuclear Information System (INIS)

    1997-01-01

    In 1996 the Nuclear Regulatory Authority of the Slovak Republic (NRA SR) continued in systematic development of its activities in the field of emergency planning according to the concept adopted by the Authority and according to the concept for building Emergency headquarters (EH) adopted after establishing of Emergency Response Centre (ERC). Major efforts were focused not only on building up a quality EH, but also tasks associated with completion and incorporation of ERC into emergency planning and emergency managing. An important role in building ERC was played by international missions. Significant position among these missions was taken by missions from Great Britain, which in the past years made a significant contribution to building up ERC. These missions focused on review of newly created standard procedures, preparation and implementation of first emergency exercises of the EH. The emergency exercises in which NRA SR took place in 1996 are reviewed. In order to make the co-operation of the Authority with the selected Army units of SR more effective in solving extraordinary situations in nuclear energy, an agreement was signed between NRA SR and the Headquarters of the Army of SR, which will help significantly to the objective

  11. Risk communications and the Chemical Stockpile Emergency-Planning Program

    Energy Technology Data Exchange (ETDEWEB)

    Vogt, B.M.; Sorensen, J.H.

    1994-09-01

    The CSEPP (Chemical Stockpile Emergency Preparedness Program) was created to improve emergency planning and response capabilities at the eight sites around the country that store chemical weapons. These weapons are scheduled to be destroyed in the near future. In preparation of the Draft Programmatic Environmental Impact Statement (DPEIS) for the Chemical Stockpile Disposal Program (CSDP), it was proposed that the Army mitigate accidents through an enhanced community emergency preparedness program at the eight storage sites. In 1986, the Army initiated the development of an Emergency Response Concept Plan (ERCP) for the CSDP, one of 12 technical support studies conducted during preparation of the Final Programmatic Environmental Impact Statement (FPEIS). The purpose of this document is to provide a fairly comprehensive source book on risk, risk management, risk communication research and recommended risk communication practices. It does not merely summarize each publication in the risk communication literature, but attempts to synthesize them along the lines of a set of organizing principles. Furthermore, it is not intended to duplicate other guidance manuals (such as Covello et al.`s manual on risk comparison). The source book was developed for the CSEPP in support of the training module on risk communications. Although the examples provided are specific to CSEPP, its use goes beyond that of CSEPP as the findings apply to a broad spectrum of risk communication topics. While the emphasis is on communication in emergency preparedness and response specific to the CSEPP, the materials cover other non-emergency communication settings. 329 refs.

  12. Emergency preparedness in Finland

    International Nuclear Information System (INIS)

    Koivukoski, J.

    1993-01-01

    Although the menace of nuclear war still persists, the focus in national emergency preparedness in Finland is presently on emergencies involving nuclear installations. The nuclear power plants, nuclear submarines and other installations in the former USSR are a major reason for this. In this article the main features and organization of emergency preparedness in Finland are described. (orig.)

  13. OEM Emergency Preparedness Information

    Data.gov (United States)

    U.S. Environmental Protection Agency — The Office of Emergency Management compiles a wide variety of information in support of Emergency Preparedness, including certain elements of the System for Risk...

  14. Emergency preparedness in obstetrics.

    Science.gov (United States)

    Haeri, Sina; Marcozzi, David

    2015-04-01

    During and after disasters, focus is directed toward meeting the immediate needs of the general population. As a result, the routine health care and the special needs of some vulnerable populations such as pregnant and postpartum women may be overlooked within a resource-limited setting. In the event of hazards such as natural disasters, manmade disasters, and terrorism, knowledge of emergency preparedness strategies is imperative for the pregnant woman and her family, obstetric providers, and hospitals. Individualized plans for the pregnant woman and her family should include knowledge of shelter in place, birth at home, and evacuation. Obstetric providers need to have a personal disaster plan in place that accounts for work responsibilities in case of an emergency and business continuity strategies to continue to provide care to their communities. Hospitals should have a comprehensive emergency preparedness program utilizing an "all hazards" approach to meet the needs of pregnant and postpartum women and other vulnerable populations during disasters. With lessons learned in recent tragedies such as Hurricane Katrina in mind, we hope this review will stimulate emergency preparedness discussions and actions among obstetric providers and attenuate adverse outcomes related to catastrophes in the future.

  15. Emergency preparedness and response

    International Nuclear Information System (INIS)

    Griffiths, M.

    1996-01-01

    After the Chernobyl accident, it became painfully obvious to the international community that there was an urgent need to establish a system for the coordination of international disaster assistance. It became the task of the United Nations Office for Disaster Relief (UNDRO) to develop such a system. The former UNDRO was subsumed into the Department of Humanitarian Affairs (DHA), established in January 1992 on the basis of UN General Assembly Resolution 46/182 adopted in December 1991, and the disaster relief system presently found in DHA is a further evolution of the system established by UNDRO. One particular importance in relation to nuclear accidents is the fact that UNDRO and the International Atomic Energy Agency (IAEA) signed a Memorandum of Understanding defining their respective responsibilities and the need for cooperation in case of accidents involving the unintentional release of nuclear radiation. In essence, the MOU makes it clear that the responsibilities of the IAEA, in connection with accidents at Nuclear Power Plants, related to the technical and radiological aspects, in particular to accident prevention, to the on-site preparedness, and to remedial measures within the 30-km zone outside the NPP. DHA's responsibilities, on the other hand, relate to the general preparedness and the rescue efforts outside the 30 km zone. In this respect, the preparedness and emergency response system is no different from the system employed in any other type of sudden-onset emergency

  16. Radiological emergencies - planning and preparedness

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    1986-12-31

    This information and training film in three parts deals with the technical background for emergency planning, emergency planning concepts and emergency preparedness. It describes the technical characteristics of radiological emergencies on which important emergency planning concepts are based and the purpose of those concepts. The film also demonstrates how emergency organizations must work together to ensure adequate preparedness. The programme reflects the standards, guidance and recommendations of the International Atomic Energy Agency

  17. Biodosimetry: emergency preparedness

    International Nuclear Information System (INIS)

    Pradeepkumar, K.S.

    2016-01-01

    Biodosimetry assays are the only methods available for ascertaining and estimating biological dose for suspected over-exposures and manage radiological emergency situations. These methods also plays a major role in medical management and triage. In the eventuality of radiological emergency, it becomes inevitable to provide care for exposed individuals. However, large numbers of unexposed individuals or those with clinically insignificant doses are to be screened off for effective medical management of those who really need the specialized medical attention. Majority of individuals involved in radiological accidents may not need any medical attention but will need ascertainment of dose estimation and counselling. The decision making and counselling is possible only with the evidence of dose estimation. Though Biodosimetry procedures-are known for their inherent delay, since radiation effects are very slow in nature, give ample time for such investigations to be completed without any hurry to take medical actions in most cases. High throughput facilities in the state of the art Biodosimetry lab established at HS and EG, BARC has helped us to address many small scale radiological emergencies in the past. These experiences also helped the lab to prepare itself for large scale scenario and support the emergency management with continually improving preparedness and indigenous development of facilities. (author)

  18. Transportation Emergency Preparedness Program (TEPP)

    International Nuclear Information System (INIS)

    1991-04-01

    The Transportation Emergency Preparedness Program (TEPP) will develop and enhance integrated emergency preparedness capabilities in two major areas. First, the program is responsible for planning and ensuring proper DOE response to transportation incidents involving DOE shipments. Second, the program is responsible for ensuring DOE can carry out its responsibilities under regulations, the National Contingency Plan (NCP) and the Federal Radiological Emergency Response Plan (FRERP) to provide technical advice and assistance as needed for any transportation incident involving radioactive or mixed hazard materials. This plan proposes a strategy for developing a comprehensive Transportation Emergency Preparedness Program, including a well organized central management and coordination structure, that serves as a process to identify, verify, and establish a consolidated effort across the Department in this very important area. This plan assumes Emergency Management to be the full range of emergency activities necessary for mitigation, preparedness, response and recovery while Emergency Preparedness activities are primarily those necessary in preparation for Incident Response Emergency Preparedness, which is the focus of this strategy plan, requires a well organized central coordination structure to be effective. 7 refs

  19. Rural transportation emergency preparedness plans.

    Science.gov (United States)

    2009-07-01

    Improving the emergency preparedness of rural transportation systems is the overall goal of this research. Unique characteristics exist in rural transportation systems including widely dispersed and diverse populations and geographic areas. Exploring...

  20. Assessing School Emergency Care Preparedness.

    Science.gov (United States)

    Hale, Charles; Varnes, Jill

    A study assessed the emergency health care preparedness of a north central Florida public school district in light of seven criteria: (1) school policies regarding delivery of emergency health care; (2) identification of school personnel responsible for rendering emergency care; (3) training levels of emergency health care providers (first aid and…

  1. Emergency preparedness at Ignalina NPP

    International Nuclear Information System (INIS)

    Kairys, A.

    1998-01-01

    Brief review of Ignalina NPP safety upgrading and personnel preparedness to act in cases of accidents is presented. Though great activities are performed in enhancing the plant operation safety, the Ignalina NPP management pays a lot of attention to preparedness for emergency elimination and take measures to stop emergency spreading. A new Ignalina NPP emergency preparedness plan was drawn up and became operational. It is the main document to carry out organizational, technical, medical, evacuation and other activities to protect plant personnel, population, the plant and the environment from accident consequences. Great assistance was rendered by Swedish experts in drawing this new emergency preparedness plan. The plan consists of 3 parts: general part, operative part and appendixes. The plan is applied to the Ignalina NPP personnel, Special and Fire Brigade and also to other contractor organizations personnel carrying out works at Ignalina NPP. There are set the following emergency classes: incident, emergency situation, alert, local emergency, general emergency. Separate intervention level corresponds to each emergency class. Overview of personnel training to act in case of an emergency is also presented

  2. Developing utility emergency preparedness exercises

    International Nuclear Information System (INIS)

    Sjoeblom, K.

    1986-01-01

    Utility emergency preparedness exercises constitute an important link in upgrading the response to nuclear power plant emergencies. Various emergency exercises are arranged annually at the Loviisa nuclear power plant. The on-site simulator is a practical tool in developing suitable accident scenarios and demonstrating them to the site emergency players and spectators. The exercises concentrate on emergency management and radiological activities. It is important to create a high degree of motivation. (author)

  3. Radiological emergency preparedness (REP) program

    International Nuclear Information System (INIS)

    Kwiatkowski, D.H.

    1995-01-01

    This talk focuses on the accomplishments of Radiological Emergency Preparedness Program. Major topics include the following: strengthening the partnership between FEMA, the States, and the Industry; the Standard Exercise Report Format (SERF); Multi-year performance partnership agreement (MYPPA); new REP Program guidance; comprehensive exercise program; federal radiological emergency response plan (FRERP); international interest; REP user fee; implementation EPA PAGs and Dose Limits; Contamination monitoring standard for portal monitors; guidance documents and training

  4. Nuclear emergency preparedness in Canada

    International Nuclear Information System (INIS)

    1993-03-01

    The preparedness of utilities and government agencies at various levels for dealing with nuclear emergencies occurring at nuclear reactors in Canada is reviewed and assessed. The review is centered on power reactors, but selected research reactors are included also. Emergency planning in the U.S.A., Germany and France, and international recommendations on emergency planning are reviewed to provide background and a basis for comparison. The findings are that Canadians are generally well protected by existing nuclear emergency plans at the electric utility and provincial levels but there are improvements that can be made, mainly at the federal level and in federal-provincial coordination. Ten issues of importance are identified: commitment to nuclear emergency planning by the federal government; division of federal and provincial roles and responsibilities; auditing of nuclear emergency preparedness of all levels of government and of electric utilities; the availability of technical guidance appropriate to Canada; protective action levels for public health and safety; communication with the public; planning and response for the later phases of a nuclear emergency; off-site exercises and training; coordination of international assistance; and emergency planning for research reactors. (L.L.) 79 refs., 2 tabs

  5. Emergency preparedness in the future

    International Nuclear Information System (INIS)

    Desrosiers, A.E.

    1983-03-01

    This speech discusses safety issues facing nuclear power generation in terms of their contribution to increased costs of construction. The view is advanced that improvements in regulatory methods could be achieved by improvements in probabilistic risk assessment. The major deficiency in risk assessment is that the consequence assessments are not realistic and accident consequences not well understood. It is demonstrated that realistic modelling of evacuation times and other emergency preparedness capabilities can significantly reduce the calculated risk of operating nuclear power plants

  6. Emergency planning and response preparedness in Slovenia

    International Nuclear Information System (INIS)

    Martincic, R.; Frlin-Lubi, A.; Usenicnik, B.

    2000-01-01

    Disasters do occur and so do nuclear or radiological accidents. Experience has shown that advance emergency response preparedness is essential in order to mitigate the consequences of an accident. In Slovenia, the Civil Protection Organization is the responsible authority for emergency preparedness and response to any kind of disasters. The Krko Nuclear Power Plant is the only nuclear power plant in Slovenia. To date the plant has operated safely and no serious incidents have been recorded. Slovenia nevertheless, maintains a high level of emergency preparedness, which is reflected in the area of prevention and safety and in the area of emergency response preparedness. The emergency management system for nuclear emergencies is incorporated into an overall preparedness and response system. The paper presents an overview of nuclear or radiological emergency response preparedness in Slovenia and its harmonization with the international guidelines. (author)

  7. On-site emergency preparedness in Finland

    International Nuclear Information System (INIS)

    Vilkamo, O.

    1998-01-01

    General scheme of emergency preparedness in Finland is presented including legal framework, emergency organization and detailed description of plans and procedures. Emergency plan in Finland cover the following matters: classification of emergency situations and description of events and accidents, description of emergency organization, description of the arrangements for alerting and data transfer, management of an emergency situation and radiation protection, worker safety and radiation protection, on- and off-site radiation measurements during a preparedness situation, provision of information, rooms, equipment and facilities, post emergency debriefing and measures, a description of the maintenance of preparedness

  8. Emergency preparedness lessons from Chernobyl

    International Nuclear Information System (INIS)

    Martin, J.B.

    1987-09-01

    Emergency preparedness at nuclear power plants in the US has been considerably enhanced since the Three Mile Island accident. The Chernobyl accident has provided valuable data that can be used to evaluate the merit of some of these enhancements and to determine the need for additional improvements. For example, the USSR intervention levels of 25 rem and 75 rem for evacuation are contrasted with US Environmental Protection Agency protective action guides. The manner in which 135,000 persons were evacuated from the 30-km zone around Chernobyl is constrasted with typical US evacuation plans. Meteorological conditions and particulate deposition patterns were studied to infer characteristics of the radioactive plume from Chernobyl. Typical plume monitoring techniques are examined in light of lessons learned by the Soviets about plume behavior. This review has indicated a need for additional improvements in utility and government emergency plans, procedures, equipment, and training. 12 refs., 1 fig., 2 tabs

  9. Introducing Emergency Preparedness in Childbirth Education Classes

    OpenAIRE

    DeWald, Lauren; Fountain, Lily

    2006-01-01

    In the wake of recent natural and man-made disasters and emergency situations, pregnant women are especially vulnerable. The authors of this column encourage childbirth educators to include disaster preparedness instruction and emergency childbirth techniques in their class content.

  10. Emergency preparedness at the UJD

    International Nuclear Information System (INIS)

    Seliga, Mojmir

    2001-01-01

    and international agreements as well as the information for media and public. Information group was in all these exercises responsible for co-ordination the technical briefing material prepared by the Reactor Safety Group and Radiological Assessment Group. The Information Group was also preparing messages, which were sent to international bodies such as IAEA and, to neighbouring countries as a part of Slovak Republic bilateral arrangements. The endeavour of the UJD is to create in the emergency response centre such a room, logistic, hardware and software base that the emergency headquarters could act timely and operatively. The protection measures proposed by the emergency headquarters, however, can be realised neither by the emergency headquarters nor by the UJD - it has no executive power in this area. That is why the emergency headquarters prepares, in co-operation with the operative expert group of the National Commission for Nuclear Accidents, optimum measures to cope with the situation and submits them to the National Emergency Commission for Radiation accidents, which co-ordinates realisation of protective measures on the national level. The emergency preparedness is verified by various types emergency exercises at national as well as international level

  11. Joint stockpiling and emergency sharing of oil: Arrangements for regional cooperation in East Asia

    Energy Technology Data Exchange (ETDEWEB)

    Shin, Eui-soon, E-mail: shine@yonsei.ac.k [School of Economics, Yonsei University, 50 Yonsei-ro, Seodaemun-gu, Seoul 120-749 (Korea, Republic of); Savage, Tim, E-mail: seoul@nautilus.or [Nautilus Institute, 58-14 Shinmun-ro 1-ga, Hangeul Hall Room 503, Jongro-gu, Seoul 110-061 (Korea, Republic of)

    2011-05-15

    The East Asia region includes three of the world's top five oil-importing nations-China, Japan, and the Republic of Korea. As a consequence, international oil supply disruptions and oil price spikes, and their effects on the economies of the region, have historically been of significant concern. Each of these three nations, as well as other nations in East Asia, has developed or is developing their own strategic oil stockpiles, but regional coordination in stockpiling arrangements and sharing of oil stocks in an emergency could provide significant benefits. This article describes the overall oil supply security situation in East Asia, reviews the attributes of different stockpiling arrangements to address energy supply security concerns, summarizes ongoing national approaches to stockpiling in East Asia, describes the development of joint oil stockpile initiatives in the region, and suggests the most attractive options for regional cooperation on oil stockpiling issues. - Highlights: {yields} Rising oil consumption will make East Asia more vulnerable to energy insecurity. {yields} There have been various dialogs on the need for a joint regional oil stockpile. {yields} No serious joint oil stockpiling efforts have been made in East Asia to date. {yields} Despite various impediments, diverse benefits justify oil stockpile cooperation.

  12. Joint stockpiling and emergency sharing of oil: Arrangements for regional cooperation in East Asia

    International Nuclear Information System (INIS)

    Shin, Eui-soon; Savage, Tim

    2011-01-01

    The East Asia region includes three of the world's top five oil-importing nations-China, Japan, and the Republic of Korea. As a consequence, international oil supply disruptions and oil price spikes, and their effects on the economies of the region, have historically been of significant concern. Each of these three nations, as well as other nations in East Asia, has developed or is developing their own strategic oil stockpiles, but regional coordination in stockpiling arrangements and sharing of oil stocks in an emergency could provide significant benefits. This article describes the overall oil supply security situation in East Asia, reviews the attributes of different stockpiling arrangements to address energy supply security concerns, summarizes ongoing national approaches to stockpiling in East Asia, describes the development of joint oil stockpile initiatives in the region, and suggests the most attractive options for regional cooperation on oil stockpiling issues. - Highlights: → Rising oil consumption will make East Asia more vulnerable to energy insecurity. → There have been various dialogs on the need for a joint regional oil stockpile. → No serious joint oil stockpiling efforts have been made in East Asia to date. → Despite various impediments, diverse benefits justify oil stockpile cooperation.

  13. Evaluation of a Tabletop Emergency Preparedness Exercise for Pharmacy Students

    OpenAIRE

    Pate, Adam; Bratberg, Jeffrey P.; Robertson, Courtney; Smith, Gregory

    2016-01-01

    Objective. To describe the implementation and effect of an emergency preparedness laboratory activity on student knowledge, willingness to participate in emergency preparedness training, current level of preparedness, and the importance of a pharmacist’s role in disaster response.

  14. INPP Handbook for the Emergency Preparedness Organization

    International Nuclear Information System (INIS)

    Ushpuras, E.

    1997-01-01

    This publication provides an overview of the emergency preparedness organization and principles for protection of public in the Baltic States in the case of the nuclear (radiological) accident at Ignalina NPP. (author)

  15. Emergency preparedness at Barsebaeck NPP in Sweden

    International Nuclear Information System (INIS)

    Olsson, R.; Lindvall, C.

    1998-01-01

    On-site emergency preparedness plan at Barsebaeck NPP is presented. In an emergency the responsibility of the NPP is to alarm the emergency organizations, spend all efforts to restore safe operation, assess the potential source term as to size and time, protect their own personnel, inform personnel and public. Detailed emergency procedures overview is provided

  16. Importance of International Cooperation for Emergency Preparedness

    International Nuclear Information System (INIS)

    Gregoric, M.; Grlicarev, I.

    1998-01-01

    The paper contains a brief review of reactor accidents and their consequences. The bilateral, regional and interregional agreements on early exchange of information and mutual assistance in case of a nuclear and radiological accident are presented in a table and discussed. The international projects in emergency preparedness are briefly outlined and the situation in the field of emergency preparedness in Slovenia is given for the comparison. (author)

  17. Radiation Emergency Preparedness Tools: Psychological First Aid

    Centers for Disease Control (CDC) Podcasts

    2010-12-30

    This podcast is an overview of the Clinician Outreach and Communication Activity (COCA) Call: Practical Tools for Radiation Emergency Preparedness. A specialist working with CDC's Radiation Studies Branch describes Psychological First Aid and a newly developed multimedia training program, entitled "Psychological First Aid in Radiation Disasters.".  Created: 12/30/2010 by National Center for Environmental Health (NCEH) Radiation Studies Branch and Emergency Risk Communication Branch (ERCB)/Joint Information Center (JIC); Office of Public Health Preparedness and Response (OPHPR).   Date Released: 1/13/2011.

  18. Medical preparedness for radiation emergency in Japan

    International Nuclear Information System (INIS)

    Akashi, Makoto

    1997-01-01

    Medical preparedness for radiation emergency in Japan is primary for off-site public protection. Many things remains to be discussed about on-site emergency medical problems. On the other hand, each nuclear facility should have a countermeasure plan of radiation emergency including medical measures for the emergency. Disaster countermeasure act and a guideline from NSC entitled 'Off-site emergency planning and preparedness for nuclear power plants' establish the system for countermeasures in radiation emergencies. The guideline also establishes medical plans in radiation emergencies, including care system for the severely contaminated or injured. NIRS is designated by the guideline as the definite care hospital for radiation injuries and is prepared to dispatch medical specialists and to receive the injured. NIRS conducts clinical follow-up studies of the injured, researches of diagnosis and treatments for radiation injuries, and education and training for medical personnel. NIRS has the plans to serve as the reference center for emergency in Japan and also in Asia, if necessary. NIRS would like to serve as a member of WHO Collaborating Center for Radiation Emergency Medical Preparedness and Assistance (REMPAN). Now NIRS is making preparation for providing 24-hours direct or consultative assistance with medical problems associated with radiation accidents in local, national, and hopefully international incidents. (author)

  19. Family emergency preparedness plans in severe tornadoes.

    Science.gov (United States)

    Cong, Zhen; Liang, Daan; Luo, Jianjun

    2014-01-01

    Tornadoes, with warnings usually issued just minutes before their touchdowns, pose great threats to properties and people's physical and mental health. Few studies have empirically investigated the association of family emergency preparedness planning and observed protective behaviors in the context of tornadoes. The purpose of this study was to examine predictors for the action of taking shelter at the time of tornadoes. Specifically, this study investigated whether having a family emergency preparedness plan was associated with higher likelihood of taking shelter upon receiving tornado warnings. This study also examined the effects of socioeconomic status and functional limitations on taking such actions. A telephone survey based on random sampling was conducted in 2012 with residents in Tuscaloosa AL and Joplin MO. Each city experienced considerable damages, injuries, and casualties after severe tornadoes (EF-4 and EF-5) in 2011. The working sample included 892 respondents. Analysis was conducted in early 2013. Logistic regression identified emergency preparedness planning as the only shared factor that increased the likelihood of taking shelter in both cities and the only significant factor in Joplin. In Tuscaloosa, being female and white also increased the likelihood of taking shelter. Disability was not found to have an effect. This study provided empirical evidence on the importance of having a family emergency preparedness plan in mitigating the risk of tornadoes. The findings could be applied to other rapid-onset disasters. © 2013 American Journal of Preventive Medicine Published by American Journal of Preventive Medicine All rights reserved.

  20. Radiation Emergency Preparedness Tools: Psychological First Aid

    Centers for Disease Control (CDC) Podcasts

    This podcast is an overview of the Clinician Outreach and Communication Activity (COCA) Call: Practical Tools for Radiation Emergency Preparedness. A specialist working with CDC's Radiation Studies Branch describes Psychological First Aid and a newly developed multimedia training program, entitled "Psychological First Aid in Radiation Disasters."

  1. Emergency Preparedness Concerns for Older Adults

    Centers for Disease Control (CDC) Podcasts

    2009-01-26

    This podcast discusses the special concerns many older adults face during a disaster. It is primarily targeted to public health and aging services professionals.  Created: 1/26/2009 by National Center for Chronic Disease Prevention and Health Promotion (NCCDPHP) and Coordinating Office for Terrorism Preparedness and Emergency Response (COTPER).   Date Released: 1/26/2009.

  2. A Probabilistic Risk Assessment For Emergency Preparedness

    International Nuclear Information System (INIS)

    Lee, Joomyung; Jae, Moosung; Ahn, Kwangil

    2013-01-01

    The importance of nuclear power plant PSA has grown up all over the world due to this incident. The main concern of this study is to develop a methodology to carry on an emergency preparedness evaluation and to set an exclusive area, or the emergency response area boundary in order to apply it to domestic reference plants. This study also focuses on evaluating the risk parameter of major nuclides through a sensitivity analysis and a safety assessment by calculating the population dose, early fatality, and cancer fatality rates. A methodology for an emergency preparedness, which can be applied to evaluate the damage of the radioactive release as well as to assess the safety of the accident scenario of a nuclear power plant, has been developed and applied for the reference plants in Korea. By applying a source term analysis, an exclusive zone based on the radioactive dose is obtained. And the results of the health effect assessment based on the release fraction of specific nuclides to public with an effective emergency response activity have been simulated. A methodology utilizing the Level 3 PSA with the actual emergency response activities has been developed and applied to typical nuclear accident situations. The plausible standard for performing an emergency plan is suggested and the valuable information regarding emergency preparedness has been produced in this study. For further works, the sensitivity study on important parameters will be performed to simulate the actual severe accident situations such as sheltering, evacuation, and emergency response activities

  3. Emergency Planning and Preparedness in Belgium

    International Nuclear Information System (INIS)

    Degueldre, D.; Maris, M.

    1998-01-01

    The present Belgian nuclear emergency planning and preparedness is based on experience cumulated since the early eighties. This paper describes the organisation, actuation process, the emergency planning zones and the applicable intervention guidance levels. The role of AVN as on-site inspector, nuclear emergency adviser and emergency assessor is explained as well as its human and technical resources. Finally the paper presents briefly the experience feedback on emergency exercises and training in Belgium as well as AVN's views on some debatable topics. (author)

  4. Radiation emergency preparedness in nuclear power plants

    International Nuclear Information System (INIS)

    Geetha, P.V.; Ramamirtham, B.; Khot, P.

    2008-01-01

    The purpose of planning for radiation emergency response is to ensure adequate preparedness for protection of the plant personnel and members of the public from significant radiation exposures in the unlikely event of an accident. With a number of safety features in the reactor design and sound operating procedures, the probability of a major accident resulting in the releases of large quantities of radioactivity is extremely small. However, as an abundant cautious approach a comprehensive radiation emergency response preparedness is in place in all the nuclear power plants (NPPs). Radiation Emergency in NPPs is broadly categorized into three types; plant emergency, site emergency and off-site emergency. During off site emergency conditions, based on levels of radiation in the environment, Civil Authorities may impose several counter measures such as sheltering, administering prophylaxis (stable iodine for thyroid blocking) and evacuation of people from the affected area. Environmental Survey Laboratory (ESL) carries out environmental survey extensively in the affected sector identified by the meteorological survey laboratory. To handle emergency situations, Emergency Control Centre with all communication facility and Emergency Equipment Centre having radiation measuring instruments and protective equipment are functional at all NPPs. AERB stipulates certain periodicity for conducting the exercises on plant, site and off site emergency. These exercises are conducted and deficiencies corrected for strengthening the emergency preparedness system. In the case of off site emergency exercise, observers are invited from AERB and Crisis Management Group of Department of Atomic Energy (DAE). The emergency exercises conducted by Nuclear Power Plant Sites have been very satisfactory. (author)

  5. Nuclear threats and emergency preparedness in Finland

    International Nuclear Information System (INIS)

    Mustonen, R.; Aaltonen, H.; Laaksonen, J.; Lahtinen, J.; Rantavaara, A.; Reponen, H.; Rytoemaa, T.; Suomela, M.; Toivonen, H.; Varjoranta, T.

    1995-10-01

    The political and economic upheavals which have taken place in Eastern Europe have had an impact on radiation and nuclear safety throughout Europe. Emergency preparedness systems for unexpected nuclear events have been developed further in all European countries, and prosperous western nations have invested in improving the safety of East European nuclear power plants. The economic crisis facing countries of the former Soviet Union has also promoted illicit trade in nuclear materials; this has made it necessary for various border guards and police authorities to intensify their collaboration and to tighten border controls. On 3-4 October 1995, Finnish Centre for Radiation and Nuclear Safety (STUK) arranged a seminar on nuclear threats and emergency preparedness in Finland. In addition to STUK experts, a wide range of rescue and civil defence authorities, environmental health specialists and other persons engaged in emergency preparedness attended the seminar. The publication contains a compilation of reports presented at the seminar. The reports cover a broad spectrum of nuclear threats analyzed at STUK, the impacts of radioactive fallout on human beings and on the environment, and preparedness systems by which the harmful effects of radiation or nuclear accidents can, if necessary, be minimized. (33 figs., 5 tabs.)

  6. Emergency planning and preparedness for nuclear facilities

    International Nuclear Information System (INIS)

    1986-01-01

    In order to review the advances made over the past seven years in the area of emergency planning and preparedness supporting nuclear facilities and consider developments which are on the horizon, the IAEA at the invitation of the Government of Italy, organized this International Symposium in co-operation with the Italian Commission for Nuclear and Alternative Energy Sources, Directorate of Nuclear Safety and Health Protection (ENEA-DISP). There were over 250 designated participants and some 70 observers from 37 Member States and four international organizations in attendance at the Symposium. The Symposium presentations were divided into sessions devoted to the following topics: emergency planning (20 papers), accident assessment (30 papers), protective measures and recovery operations (10 papers) and emergency preparedness (16 papers). A separate abstract was prepared for each of these papers

  7. Emergency preparedness: a comprehensive plan

    International Nuclear Information System (INIS)

    Wilson, R.H.

    1975-01-01

    The Atlantic Richfield Hanford Company (ARHCO) has developed comprehensive plans for coping with emergencies ranging from criticality to civil disturbance. A unique notification system provides for immediate contact with key personnel by using a central communications center, crash alarm warning networks, and a continuing telephone cascade notification system. There is also the capability of immediately contacting other contractor key personnel. Certain jobs have been predetermined as necessary for coping with an emergency. An emergency staff consisting of responsible management, with alternates, has been preselected to automatically fill these jobs when notified. Control centers for headquarters and ''field'' are established with telephone and radio communication capabilities and are also supplied with some source materials to assist initiating plans for containing an emergency for recovery. A comprehensive emergency procedures manual has been developed, which contains information of company-wide application and procedures for specific facilities covering almost all accident situations

  8. Radioanalytical chemistry in emergency preparedness

    International Nuclear Information System (INIS)

    Nygren, U.

    2001-11-01

    Radioactive nuclides present a potential health hazard due to the ionising radiation emitted during their decay. The release of large amounts of radioactive nuclides is of concern both for man and the environment. In cases of an accidental (or intentional) release, it is important with early warning systems and rapid methods to determine the extent and composition of the radioactive contamination. Many of the radionuclides released from a nuclear power plant accident or the detonation of a nuclear weapon can be determined by the use of gamma spectrometry. There are, however, some nuclides that are considered to be among the more hazardous that cannot be well determined by this technique, e.g. 90 Sr and the actinides. The determination of these nuclides is usually very time consuming due to the need for their chemical separation prior to counting. Two methods developed for the determination of 90 Sr and actinides in preparedness situations are described in this thesis. The determination of 90 Sr is based on a rapid decomposition of inorganic sample matrixes by lithium-borate fusion and preconcentration of Sr by coprecipitation with calcium oxalate with HF acting as a hold-back carrier for silica. The separation of Sr is then performed by extraction chromatography and measurement by gas-flow proportional counting. The method for actinide-determination is based on collection of the elements from various kinds of sample-materials by the use of two different actinide selective resins. The sample is, in this way, pre concentrated and partially purified prior to the analysis with low-energy gamma spectrometry. Sample preparation by this method only requires 1.5 - 2.5 hours and the sensitivity is sufficient for many of the nuclides of interest. For those nuclides that require a more sensitive analytical finish, the actinides can be removed from the resin and processed further for, e.g., alpha spectrometric determinations

  9. Radioanalytical chemistry in emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Nygren, U

    2001-11-01

    Radioactive nuclides present a potential health hazard due to the ionising radiation emitted during their decay. The release of large amounts of radioactive nuclides is of concern both for man and the environment. In cases of an accidental (or intentional) release, it is important with early warning systems and rapid methods to determine the extent and composition of the radioactive contamination. Many of the radionuclides released from a nuclear power plant accident or the detonation of a nuclear weapon can be determined by the use of gamma spectrometry. There are, however, some nuclides that are considered to be among the more hazardous that cannot be well determined by this technique, e.g. {sup 90}Sr and the actinides. The determination of these nuclides is usually very time consuming due to the need for their chemical separation prior to counting. Two methods developed for the determination of {sup 90}Sr and actinides in preparedness situations are described in this thesis. The determination of {sup 90}Sr is based on a rapid decomposition of inorganic sample matrixes by lithium-borate fusion and preconcentration of Sr by coprecipitation with calcium oxalate with HF acting as a hold-back carrier for silica. The separation of Sr is then performed by extraction chromatography and measurement by gas-flow proportional counting. The method for actinide-determination is based on collection of the elements from various kinds of sample-materials by the use of two different actinide selective resins. The sample is, in this way, pre concentrated and partially purified prior to the analysis with low-energy gamma spectrometry. Sample preparation by this method only requires 1.5 - 2.5 hours and the sensitivity is sufficient for many of the nuclides of interest. For those nuclides that require a more sensitive analytical finish, the actinides can be removed from the resin and processed further for, e.g., alpha spectrometric determinations.

  10. Emergency Preparedness and Response: A Safety Net

    Energy Technology Data Exchange (ETDEWEB)

    Aaltonen, H., E-mail: hannele.aaltonen@stuk.fi [Radiation and Nuclear Safety Authority (STUK), Helsinki (Finland)

    2014-10-15

    Full text: The objective of nuclear regulatory work is to prevent accidents. Nevertheless, possibility of a severe accident cannot be totally excluded, which makes a safety net, efficient emergency preparedness and response, necessary. Should the possibility of accidents be rejected, the result would be in the worst case inadequate protection of population, functions of society, and environment from harmful effects of radiation. Adequate resources for maintenance and development of emergency arrangement are crucial. However, they need to be balanced taking into account risks assessments, justified expectations of society, and international requirements. To successfully respond to an emergency, effective emergency preparedness, such as up-to-date plans and procedures, robust arrangements and knowledgeable and regularly trained staff are required. These, however, are not enough without willingness and proactive attitude to • communicate in a timely manner; • co-operate and coordinate actions; • provide and receive assistance; and • evaluate and improve emergency arrangements. In the establishment and development of emergency arrangements, redundant and diverse means or tools used are needed in, for example, communication and assessment of hazard. Any severe nuclear emergency would affect all countries either directly or indirectly. Thus, national emergency arrangements have to be compatible to the extent practicable with international emergency arrangements. It is important to all countries that the safety nets of emergency arrangements are reliable - and operate efficiently in a coordinated manner when needed - on national, regional and international level. (author)

  11. Emergency preparedness of OSBRA Pipeline

    Energy Technology Data Exchange (ETDEWEB)

    Magalhaes, Milton P.; Torres, Carlos A.R.; Almeida, Francisco J.C. [TRANSPETRO, Rio de Janeiro, RJ (Brazil)

    2009-07-01

    This paper presents the experience of PETROBRAS Transporte S. A. - TRANSPETRO in the preparation for emergencies in the OSBRA pipeline, showing specific aspects and solutions developed. The company has a standardized approach for the emergency management, based on risk analysis studies, risk management plan and contingency plans. To cover almost 1,000 km of pipeline, the Company avails of Emergency Response Centers and Environmental Defense Center, located at strategic points. In order to achieve preparation, fire fighting training and oil leakage elimination training are provided. Additionally, simulation exercises are performed, following a schedule worked out according to specific criteria and guidelines. As a conclusion, a picture is presented of the evolution of the preparation for emergencies in the OSBRA System which bears the enormous responsibility of transporting flammable products for almost 1,000 km of pipeline, crossing 40 municipalities, 3 states and the Federal District. (author)

  12. Development of effective emergency preparedness and response

    International Nuclear Information System (INIS)

    2012-01-01

    It has been discussed that there were many differences to international standards and the delay for prior planning implementation of unclear emergency preparedness. Therefore, it was necessary to promote the study to take the concept of the international standard to the Guide 'Emergency Preparedness for Nuclear Facilities', and to apply the Precautionary Action Zone (PAZ) etc. as the protective actions procedure. This study was started since the fiscal year 2010 to enhance the effectiveness of the protective actions, which are corresponding to these requirements based on international aspects in the nuclear disaster occurrence. And the study was conducted to introduce the emergency action level (EAL) as decision criteria and to apply urgent protective action considering PAZ, and the results from this study will be used as the basic data necessary to modify and improve the Guide. In order to fulfill the purposes described above, in fiscal year 2011, followings are executed, (1) analysis and verification for basic evacuation area such as the PAZ, (2) analysis with regard to the EAL and prototype of protective actions for public, and (3) analysis with regard to prototype of protective actions for public including evacuation plan. However, taking account of the significance of the Fukushima Daiichi Nuclear Power Plant accident, Japanese emergency preparedness strategy should be studied and reconstructed in logically, systematically, and with international standard, but also being based on the reflection of individual lessons from this accident. (author)

  13. The Norwegian nuclear emergency preparedness system

    International Nuclear Information System (INIS)

    Naadland, E.; Stranden, E.

    1995-01-01

    A new national organisation for nuclear emergency preparedness was established in Norway in 1993, based on experiences from the Chernobyl accident. This organisation is based on authorities and research institutions which in a normal situation have responsibilities and knowledge in fields that are also of major importance in a nuclear accident situation. The national emergency preparedness organisation consists of the Ministerial Co-ordination Committee, the Advisory Committee for Nuclear Accidents and their secretariat at the Norwegian Radiation Protection Authority, and an Information Group. The organisations participating in the Advisory Committee operate measuring networks, stations and laboratories. In an early phase of an accident, a minor group from the Advisory Committee forms a Crisis Committee for Nuclear Accidents. This committee has been delegated the authority to make decisions in this phase. The organisation represented by its secretariat at the Norwegian Radiation Protection Authority is responsible for coordinating the emergency planning, the measuring capacities and the professional needs ordinarily. The secretariat is on call 24 hours a day as point of contact according to bilateral and international agreements on early notification. In this paper the features of the emergency preparedness organisation are presented. (Author)

  14. Civil emergency preparedness at the Ignalina nuclear power plant

    International Nuclear Information System (INIS)

    1998-12-01

    Workshop was held in the frame of Lithuania's cooperation with NATO on disasters management subject and was concentrated on the preparation of management of nuclear accident at Ignalina NPP. The following topics were covered: emergency preparedness inside Ignalina NPP, preparedness for nuclear accidents at national level, experience in Nordic countries and IAEA activities in harmonization of nuclear emergency preparedness in different countries

  15. Hungarian system for nuclear emergency preparedness

    International Nuclear Information System (INIS)

    Borsi, Laszlo; Szabo, Laszlo; Ronaky, Jozsef

    2000-01-01

    The Hungarian Government had established in 1989 on the basis of national and international experience the National System for Nuclear Emergency Preparedness (NSNEP). Its guidance is ad-ministered by the Governmental Commission for Nuclear Emergency Preparedness (GCNEP). The work of the Governmental Commission is designated to be assisted by the Secretariat, the Operational Staff and by the Technical Scientific Council. The leading and guiding duties of the relevant ministries and national agencies are performed by the Sectional Organisations for Nuclear Emergency Preparedness (SONEP), together with those of the Metropolitan Agencies and of the county agencies by the Metropolitan Local Committee (MLCNEP) and by County Local Committees. The chairman of the Governmental Commission is the Minister of the Interior whose authority covers the guidance of the NSNEP's activities. The Secretariat of the Governmental Commission (SGC) co-ordinates the activities of the bodies of the Governmental Commission, the sectional organisations, the local committees for nuclear emergency preparedness and those of the other bodies responsible for implementing action. The Emergency Information Centre (EIC) of GCNEP as the central body of the National Radiation Monitoring, Warning and Surveillance System provides the information needed for preparing decisions at Governmental Commission level. The technical-scientific establishment of the governmental decisions in preparation for nuclear emergency situations and the elimination of their consequences are tasks of the Technical-Scientific Council. The Centre for Emergency Response, Training and Analysis (CERTA) of the Hungarian Atomic Energy Authority (HAEA) may be treated as a body of the Governmental Commission as well. The National Radiation Monitoring, Warning and Surveillance System (NRMWSS) is integral part of the NSNEP. The NRMWSS consists of the elements operated by the ministries and the operation of nation-wide measuring network in

  16. Nuclear emergency preparedness: national organisation

    Energy Technology Data Exchange (ETDEWEB)

    El Messaoudi, M.; Essadki, H.; Lferde, M.; Moutia, Z. [Faculte des Sciences, Dept. de Physique, Rabat (Morocco)

    2006-07-01

    As in all other industries, the nuclear facilities can be the object of accidents whose consequences go beyond the limits of their site and consequently radioactive releases would be issued in the environment justifying the protection measures of population. Even if all the precautions were taken during the stages from the design to the operation, to reduce the risk of accident in nuclear installations, this risk can not be completely suppressed. For the radiological risk, as for the other major risks, the protection of the public always was taken in consideration by public power. The nuclear emergency plan gives the opportunity to have a quick appropriate reaction to a sudden event, which has (or might have) direct consequences for the population. The Moroccan public authorities had proceeded to reinforce at the national level, the control of nuclear safety and protection against radiation by the set up of a new nuclear safety authority. Evidently, the organization and the management of a nuclear and/or radiological emergency were at centre of this reform. Taking into account the subjective risk of radiological terrorism, the authorities should reinforce measurements guaranteeing radiological safety and security, and elaborate the appropriate emergency plans. The aim of this paper is to give a progress report on nuclear emergency plan aspects and to present a corresponding organization which could be applied by national authority. (authors)

  17. Nuclear emergency preparedness: national organisation

    International Nuclear Information System (INIS)

    El Messaoudi, M.; Essadki, H.; Lferde, M.; Moutia, Z.

    2006-01-01

    As in all other industries, the nuclear facilities can be the object of accidents whose consequences go beyond the limits of their site and consequently radioactive releases would be issued in the environment justifying the protection measures of population. Even if all the precautions were taken during the stages from the design to the operation, to reduce the risk of accident in nuclear installations, this risk can not be completely suppressed. For the radiological risk, as for the other major risks, the protection of the public always was taken in consideration by public power. The nuclear emergency plan gives the opportunity to have a quick appropriate reaction to a sudden event, which has (or might have) direct consequences for the population. The Moroccan public authorities had proceeded to reinforce at the national level, the control of nuclear safety and protection against radiation by the set up of a new nuclear safety authority. Evidently, the organization and the management of a nuclear and/or radiological emergency were at centre of this reform. Taking into account the subjective risk of radiological terrorism, the authorities should reinforce measurements guaranteeing radiological safety and security, and elaborate the appropriate emergency plans. The aim of this paper is to give a progress report on nuclear emergency plan aspects and to present a corresponding organization which could be applied by national authority. (authors)

  18. Nuclear power plant emergency preparedness

    International Nuclear Information System (INIS)

    2005-01-01

    The guide sets forth detailed requirements on how the licensee of a nuclear power plant shall plan, implement and maintain emergency response arrangements. The guide is also applied to nuclear material and nuclear waste transport in situations referred to in guide YVL 6.5. Requirements on physical protection are presented in a separate guide of Finnish Radiation and Nuclear Safety Authority (STUK)

  19. Basic principles for emergency preparedness

    International Nuclear Information System (INIS)

    Hamard, J.; Bousquet-Clayeux, G.; Le Grand, J.

    1982-01-01

    The preparation of emergency plans must depend upon the type of nuclear facility and site characteristics, and will need to take into account the conditions pertaining to the time of application. The plan has to consider a wide range of accidents which might occur on the site, including these which have a very low probability of occurrence. Furthermore, the emergency countermeasures have to be taken to reduce the radiological risks to individual members of the public. This implies calculating the ''projected'' dose due to external exposure (plume and deposit) and inhalation (plume and resuspension of deposit). The calculations are based on the use of an atmospheric transfer model as simple and realistic as possible so as to cover a wide range of situations. (author)

  20. Radiological emergency: Malaysian preparedness and response

    International Nuclear Information System (INIS)

    Yusof, M. A. W.; Ali, H. M.

    2011-01-01

    Planning and preparation in advance for radiological emergencies can help to minimise potential public health and environmental threats if and when an actual emergency occurs. During the planning process, emergency response organisations think through how they would respond to each type of incident and the resources that will be needed. In Malaysia, planning, preparation for and response to radiological emergencies involve many parties. In the event of a radiological emergency and if it is considered a disaster, the National Security Council, the Atomic Energy Licensing Board and the Malaysian Nuclear Agency (Nuclear Malaysia) will work together with other federal agencies, state and local governments, first responders and international organisations to monitor the situation, contain the release, and clean up the contaminated site. Throughout the response, these agencies use their protective action guidelines. This paper discusses Malaysian preparedness for, and response to, any potential radiological emergency. (authors)

  1. Spinoffs from radiological emergency preparedness programmes to generic emergency management

    International Nuclear Information System (INIS)

    Sanders, M.E.

    1986-01-01

    In the USA, the radiological emergency preparedness (REP) programme for nuclear power plants is being used to enhance emergency management programmes for other types of emergencies. The REP programme is particularly useful in developing plans and preparedness measures for chemical accidents. The Integrated Emergency Management System (IEMS) approach provides a means for maximizing relationships between the REP programme and other programmes. IEMS essentially involves applying common elements of planning and preparedness to all types of emergencies, while recognizing that unique characteristics of specific natural and man-made emergencies require special planning and preparedness considerations. Features of the REP programme that make it compatible with the IEMS approach and useful in coping with other types of emergencies are: (1) the close co-operation between the national nuclear regulatory and emergency management organizations; (2) the programme integration among all levels of government, the nuclear power industry, public interest groups and the general public and (3) the comprehensiveness and sophistication of the programme. The REP programme in the USA represents a state-of-the-art emergency management capability. Some of its elements are readily transferrable to most other types of emergency preparedness programmes, while other elements can be adapted more readily to other hazard-specific programmes. The Bhopal accident has been a catalyst for this adaptation to chemical accidents, in such areas as furnishing hazard-specific information to the public, alert and notification systems, definition of the hazards and risks involved, establishing planning zones and developing close working relationships among the industry, the public and government

  2. Emergency Preparedness Education for Nurses: Core Competency Familiarity Measured Utilizing an Adapted Emergency Preparedness Information Questionnaire.

    Science.gov (United States)

    Georgino, Madeline M; Kress, Terri; Alexander, Sheila; Beach, Michael

    2015-01-01

    The purpose of this project was to measure trauma nurse improvement in familiarity with emergency preparedness and disaster response core competencies as originally defined by the Emergency Preparedness Information Questionnaire after a focused educational program. An adapted version of the Emergency Preparedness Information Questionnaire was utilized to measure familiarity of nurses with core competencies pertinent to first responder capabilities. This project utilized a pre- and postsurvey descriptive design and integrated education sessions into the preexisting, mandatory "Trauma Nurse Course" at large, level I trauma center. A total of 63 nurses completed the intervention during May and September 2014 sessions. Overall, all 8 competencies demonstrated significant (P < .001; 98% confidence interval) improvements in familiarity. In conclusion, this pilot quality improvement project demonstrated a unique approach to educating nurses to be more ready and comfortable when treating victims of a disaster.

  3. A Conceptual Framework for Allocation of Federally Stockpiled Ventilators During Large-Scale Public Health Emergencies.

    Science.gov (United States)

    Zaza, Stephanie; Koonin, Lisa M; Ajao, Adebola; Nystrom, Scott V; Branson, Richard; Patel, Anita; Bray, Bruce; Iademarco, Michael F

    2016-01-01

    Some types of public health emergencies could result in large numbers of patients with respiratory failure who need mechanical ventilation. Federal public health planning has included needs assessment and stockpiling of ventilators. However, additional federal guidance is needed to assist states in further allocating federally supplied ventilators to individual hospitals to ensure that ventilators are shipped to facilities where they can best be used during an emergency. A major consideration in planning is a hospital's ability to absorb additional ventilators, based on available space and staff expertise. A simple pro rata plan that does not take these factors into account might result in suboptimal use or unused scarce resources. This article proposes a conceptual framework that identifies the steps in planning and an important gap in federal guidance regarding the distribution of stockpiled mechanical ventilators during an emergency.

  4. Planning and preparedness for radiological emergencies at nuclear power stations

    International Nuclear Information System (INIS)

    Thomson, R.; Muzzarelli, J.

    1996-01-01

    The Radiological Emergency Preparedness (REP) Program was created after the March 1979 accident at the Three Mile Island nuclear power station. The Federal Emergency Management Agency (FEMA) assists state and local governments in reviewing and evaluating state and local REP plans and preparedness for accidents at nuclear power plants, in partnership with the US Nuclear Regulatory Commission (NRC), which evaluates safety and emergency preparedness at the power stations themselves. Argonne National Laboratory provides support and technical assistance to FEMA in evaluating nuclear power plant emergency response exercises, radiological emergency plans, and preparedness

  5. Emergency preparedness training for local communities

    International Nuclear Information System (INIS)

    Cooley, M.J.; Thompson, K.K.

    1987-01-01

    Detroit Edison, in cooperation with Monroe County, has developed a comprehensive training program for local emergency workers in the area surrounding the Fermi 2 Nuclear Power Plant. Using expertise from both organizations, a program consisting of two videotapes, two slide-tapes and nine narrated slide series was produced to address the worker-specific training needs of county emergency workers. In June of 185, the program was approved by Detroit Edison and the Monroe County Board of Commissioners. To date, Monroe County has trained more than 1000 emergency workers. This program has been so well received that the county staff has developed and presented a modified version of this program to the general public. The result of this cooperative effort is increased public confidence in emergency preparedness at the state, local and utility level and a renewed spirit of cooperation and trust between the utility and local units of government

  6. Technological considerations in emergency instrument preparedness

    International Nuclear Information System (INIS)

    Selby, J.M.

    1976-01-01

    Emergency preparedness has been emphasized during the development of the nuclear industry. Existing instrumentation technology has been effectively applied to minimizing the probability of accidents. Radiological instrumentation provided for the measurement of ambient radiation levels or routine releases of radioactive material is usually adequate to provide an early warning that an accident is occurring. In contrast, radiological instrumentation capable of providing a reasonable measure of the source term which could be involved in a severe accident has not received enough attention. In emergency planning the capability should be established for identifying as promptly as possible the need for evasive action out in the plant environs and for minimizing the consequences of an accident in terms of resultant human exposure. Therefore instrumentation is required to measure the source term no matter where the point of release might be, together with instrumentation for obtaining meteorological data sufficient to establish the path of the release in the environment

  7. State of emergency preparedness for US health insurance plans.

    Science.gov (United States)

    Merchant, Raina M; Finne, Kristen; Lardy, Barbara; Veselovskiy, German; Korba, Caey; Margolis, Gregg S; Lurie, Nicole

    2015-01-01

    Health insurance plans serve a critical role in public health emergencies, yet little has been published about their collective emergency preparedness practices and policies. We evaluated, on a national scale, the state of health insurance plans' emergency preparedness and policies. A survey of health insurance plans. We queried members of America's Health Insurance Plans, the national trade association representing the health insurance industry, about issues related to emergency preparedness issues: infrastructure, adaptability, connectedness, and best practices. Of 137 health insurance plans queried, 63% responded, representing 190.6 million members and 81% of US plan enrollment. All respondents had emergency plans for business continuity, and most (85%) had infrastructure for emergency teams. Some health plans also have established benchmarks for preparedness (eg, response time). Regarding adaptability, 85% had protocols to extend claim filing time and 71% could temporarily suspend prior medical authorization rules. Regarding connectedness, many plans shared their contingency plans with health officials, but often cited challenges in identifying regulatory agency contacts. Some health insurance plans had specific policies for assisting individuals dependent on durable medical equipment or home healthcare. Many plans (60%) expressed interest in sharing best practices. Health insurance plans are prioritizing emergency preparedness. We identified 6 policy modifications that health insurance plans could undertake to potentially improve healthcare system preparedness: establishing metrics and benchmarks for emergency preparedness; identifying disaster-specific policy modifications, enhancing stakeholder connectedness, considering digital strategies to enhance communication, improving support and access for special-needs individuals, and developing regular forums for knowledge exchange about emergency preparedness.

  8. Preparedness Now! An Emergency Survival Guide

    CERN Document Server

    Edwards, Aton

    2009-01-01

    In uncertain times, a solid preparedness plan is essential for every individual and family. PREPAREDNESS NOW! navigates the new realities of twenty-first century living: extreme weather, economic instability, terror attacks, and more. Packed with checklists, resources, and step-by-step instructions, PREPAREDNESS NOW! details everything needed for office, car, and home preparedness. This newly expanded and revised edition includes an extended chapter on food and water storage and urban gardening, techniques in personal defense, and the latest and best preparedness products on the market. This b

  9. Improving emergency preparedness and crisis management capabilities in transportation.

    Science.gov (United States)

    2009-11-30

    Despite the heightened attention disaster preparedness and emergency management have received over the past decade, serious weaknesses in the United States emergency response capabilities remain at all levels of government and across a wide range ...

  10. Measuring disaster preparedness of local emergency medical services agencies

    OpenAIRE

    Elliott, Ross W.

    2010-01-01

    CHDS State/Local Approved for public release; distribution is unlimited Emergency Medical Services (EMS) plays a key role in disaster response. Yet, determining how much preparedness is enough to achieve an acceptable level of preparedness is challenging. After conducting an extensive literature review, it is evident no nationally accepted method exists to evaluate an EMS system's level of disaster preparedness systematically. Research was conducted to define the skills and equipmen...

  11. Emergency preparedness among people living near US army chemical weapons sites after September 11, 2001.

    Science.gov (United States)

    Williams, Bryan L; Magsumbol, Melina S

    2007-09-01

    We examined trust in the army and perceptions of emergency preparedness among residents living near the Anniston, Ala, and Richmond, Ky, US Army chemical weapons stockpile sites shortly after September 11, 2001. Residents (n = 655) living near the 2 sites who participated in a cross-sectional population were relatively unprepared in the event of a chemical emergency. The events of September 11 gave rise to concerns regarding the security of stored chemical weapons and the sites' vulnerability to terrorist attacks. Although residents expressed trust in the army to manage chemical weapons safely, only a few expressed a desire to actively participate in site decisions. Compliance with procedures during emergencies could be seriously limited, putting residents in these sites at higher levels of risk of exposure to chemical hazards than nonresidents.

  12. Integrating hospitals into community emergency preparedness planning.

    Science.gov (United States)

    Braun, Barbara I; Wineman, Nicole V; Finn, Nicole L; Barbera, Joseph A; Schmaltz, Stephen P; Loeb, Jerod M

    2006-06-06

    Strong community linkages are essential to a health care organization's overall preparedness for emergencies. To assess community emergency preparedness linkages among hospitals, public health officials, and first responders and to investigate the influence of community hazards, previous preparation for an event requiring national security oversight, and experience responding to actual disasters. With expert advice from an advisory panel, a mailed questionnaire was used to assess linkage issues related to training and drills, equipment, surveillance, laboratory testing, surge capacity, incident management, and communication. A simple random sample of 1750 U.S. medical-surgical hospitals. Of 678 hospital representatives that agreed to participate, 575 (33%) completed the questionnaire in early 2004. Respondents were hospital personnel responsible for environmental safety, emergency management, infection control, administration, emergency services, and security. Prevalence and breadth of participation in community-wide planning; examination of 17 basic elements in a weighted analysis. In a weighted analysis, most hospitals (88.2% [95% CI, 84.1% to 92.3%]) engaged in community-wide drills and exercises, and most (82.2% [CI, 77.8% to 86.5%]) conducted a collaborative threat and vulnerability analysis with community responders. Of all respondents, 57.3% (CI, 52.1% to 62.5%) reported that their community plans addressed the hospital's need for additional supplies and equipment, and 73.0% (CI, 68.1% to 77.9%) reported that decontamination capacity needs were addressed. Fewer reported a direct link to the Health Alert Network (54.4% [CI, 49.3% to 59.5%]) and around-the-clock access to a live voice from a public health department (40.0% [CI, 35.0% to 45.0%]). Performance on many of 17 basic elements was better in large and urban hospitals and was associated with a high number of perceived hazards, previous national security event preparation, and experience in actual

  13. Plan for national nuclear emergency preparedness

    International Nuclear Information System (INIS)

    1992-06-01

    The responsibility for Denmark's preparedness for nuclear emergencies lies with the Ministry of the Interior and the Civil Defense administration. The latter is particularly responsible for the presented plan which clarifies the organization and the measures to be taken in order to protect the public where, in the event of such an emergency, it could be in danger of radiation from radioactive materials. The main specifications of the plan, the activation of which covers the whole country, are that daily monitoring should be carried out so that warnings of nuclear accidents can be immediately conveyed to the relevant parties and that immediate action can be taken. These actions should result in the best possible protection against nuclear radiation so that acute and chronic damage to the health of members of the public can be restricted. The public, and relevant authorities should be informed of the situation and it should be attempted to regulate the reactions of individuals and of the society in general in such a way that damage to health, or social and economical conditions, can be restricted as much as possible. Denmark has not itself any atomic power plants, but some are located in neighbour countries and there are other sources such as nuclear research reactors, passing nuclear-driven ships etc. The detailed plan also covers possible sources of radiation, the nature of related damage to health, international cooperation, legal aspects, and a very detailed description of the overall administration and of the responsibilities of the organizations involved. (AB)

  14. Future of Nuclear Power: NRC emergency preparedness licensing activities agenda

    International Nuclear Information System (INIS)

    Essig, T.H.

    1995-01-01

    This talk summary addresses the issue of how future policies of the NRC will affect nuclear power in areas such as construction, emergency preparedness, and licensing. Specific topics covered include the following: Emergent EP licensing issues for operating nuclear Power Plants; 10CFR Part 52 and the process for licensing of Advanced Light Water Reactors (ALWRs); and potential revisions to emergency preparedness programs for future nuclear power plants

  15. Potassium iodide stockpiling

    International Nuclear Information System (INIS)

    Krimm, R.W.

    1983-01-01

    After examination by the Federal Emergency Management Agency (FEMA) and other federal agencies of federal policy on the use and distribution of potassium iodide (KI) as a thyroid-blocking agent for use in off-site preparedness around commercial nuclear powerplants, FEMA believes the present shelf life of KI is too short, that the minimum ordering quantities are an obstacle to efficient procurement, and that the packaging format offered by the drug industry does not meet the wishes of state and local government officials. FEMA has asked assistance from the Food and Drug Administration in making it possible for those states wishing to satisfy appropriate requirements to do so at the minimum cost to the public. Given an appropriate packaging and drug form, there appears to be no reason for the federal government to have further involvement in the stockpiling of KI

  16. Measures of emergency preparedness contributing to nursing home resilience.

    Science.gov (United States)

    Lane, Sandi J; McGrady, Elizabeth

    2017-12-13

    Resilience approaches have been successfully applied in crisis management, disaster response, and high reliability organizations and have the potential to enhance existing systems of nursing home disaster preparedness. This study's purpose was to determine how the Center for Medicare and Medicaid Services (CMS) "Emergency Preparedness Checklist Recommended Tool for Effective Health Care Facility Planning" contributes to organizational resilience by identifying the benchmark resilience items addressed by the CMS Emergency Preparedness Checklist and items not addressed by the CMS Emergency Preparedness Checklist, and to recommend tools and processes to improve resilience for nursing homes. The CMS Emergency Preparedness Checklist items were compared to the Resilience Benchmark Tool items; similar items were considered matches. Resilience Benchmark Tool items with no CMS Emergency Preparedness Checklist item matches were considered breaches in nursing home resilience. The findings suggest that the CMS Emergency Preparedness Checklist can be used to measure some aspects of resilience, however, there were many resilience factors not addressed. For nursing homes to prepare and respond to crisis situations, organizations need to embrace a culture that promotes individual resilience-related competencies that when aggregated enable the organization to improve its resiliency. Social workers have the skills and experience to facilitate this change.

  17. Mass casualty events: blood transfusion emergency preparedness across the continuum of care.

    Science.gov (United States)

    Doughty, Heidi; Glasgow, Simon; Kristoffersen, Einar

    2016-04-01

    Transfusion support is a key enabler to the response to mass casualty events (MCEs). Transfusion demand and capability planning should be an integrated part of the medical planning process for emergency system preparedness. Historical reviews have recently supported demand planning for MCEs and mass gatherings; however, computer modeling offers greater insights for resource management. The challenge remains balancing demand and supply especially the demand for universal components such as group O red blood cells. The current prehospital and hospital capability has benefited from investment in the management of massive hemorrhage. The management of massive hemorrhage should address both hemorrhage control and hemostatic support. Labile blood components cannot be stockpiled and a large surge in demand is a challenge for transfusion providers. The use of blood components may need to be triaged and demand managed. Two contrasting models of transfusion planning for MCEs are described. Both illustrate an integrated approach to preparedness where blood transfusion services work closely with health care providers and the donor community. Preparedness includes appropriate stock management and resupply from other centers. However, the introduction of alternative transfusion products, transfusion triage, and the greater use of an emergency donor panel to provide whole blood may permit greater resilience. © 2016 AABB.

  18. The public transportation system security and emergency preparedness planning guide

    Science.gov (United States)

    2003-01-01

    Recent events have focused renewed attention on the vulnerability of the nation's critical infrastructure to major events, including terrorism. The Public Transportation System Security and Emergency Preparedness Planning Guide has been prepared to s...

  19. Engineering simulator applications to emergency preparedness at DOE reactor sites

    International Nuclear Information System (INIS)

    Beelman, R.J.

    1990-01-01

    This paper reports that since 1984 the Idaho National Engineering Laboratory (INEL) has conducted twenty-seven comprehensive emergency preparedness exercises at the U.S. Nuclear Regulatory Commission's (NRC) Headquarters Operations Center and Regional Incident Response Centers using the NRC's Nuclear Plant Analyzer (NPA), developed at the INEL, as an engineering simulator. The objective of these exercises has been to assist the NRC in upgrading its preparedness to provide technical support backup and oversight to U.S. commercial nuclear plant licensees during emergencies. With the current focus on Department of Energy (DOE) reactor operational safety and emergency preparedness, this capability is envisioned as a means of upgrading emergency preparedness at DOE production and test reactor sites such as the K-Reactor at Savannah River Laboratory (SRL) and the Advanced Test Reactor (ATR) at INEL

  20. Emergency preparedness at Oak Ridge National Laboratory, Oak Ridge, Tennessee

    International Nuclear Information System (INIS)

    Skipper, M.N.

    1990-03-01

    Emergency preparedness for industry was commonly believed to be an essential responsibility on the part of management. Therefore, this study was conducted to research and accumulate information and data on emergency preparedness at Oak Ridge National Laboratory (ORNL). The objective of this study was to conduct a thorough evaluation of emergency preparedness knowledge among employees to determine if they were properly informed or if they needed more training. Also, this study was conducted to provide insight to management as to what their responsibility was concerning this training. To assess employee emergency preparedness knowledge, a questionnaire was developed and administered to 100 employees at ORNL. The data was analyzed using frequencies and percentages of response and was displayed through the use of graphs within the report. 22 refs., 22 figs

  1. Emergency preparedness at Oak Ridge National Laboratory, Oak Ridge, Tennessee

    Energy Technology Data Exchange (ETDEWEB)

    Skipper, M.N.

    1990-03-01

    Emergency preparedness for industry was commonly believed to be an essential responsibility on the part of management. Therefore, this study was conducted to research and accumulate information and data on emergency preparedness at Oak Ridge National Laboratory (ORNL). The objective of this study was to conduct a thorough evaluation of emergency preparedness knowledge among employees to determine if they were properly informed or if they needed more training. Also, this study was conducted to provide insight to management as to what their responsibility was concerning this training. To assess employee emergency preparedness knowledge, a questionnaire was developed and administered to 100 employees at ORNL. The data was analyzed using frequencies and percentages of response and was displayed through the use of graphs within the report. 22 refs., 22 figs.

  2. 75 FR 67807 - Pipeline Safety: Emergency Preparedness Communications

    Science.gov (United States)

    2010-11-03

    ... DEPARTMENT OF TRANSPORTATION Pipeline and Hazardous Materials Safety Administration [Docket No... is issuing an Advisory Bulletin to remind operators of gas and hazardous liquid pipeline facilities... Gas Pipeline Systems. Subject: Emergency Preparedness Communications. Advisory: To further enhance the...

  3. Urban meteorological modelling for nuclear emergency preparedness

    International Nuclear Information System (INIS)

    Baklanov, Alexander; Sorensen, Jens Havskov; Hoe, Steen Cordt; Amstrup, Bjarne

    2006-01-01

    The main objectives of the current EU project 'Integrated Systems for Forecasting Urban Meteorology, Air Pollution and Population Exposure' (FUMAPEX) are the improvement of meteorological forecasts for urban areas, the connection of numerical weather prediction (NWP) models to urban air pollution and population dose models, the building of improved urban air quality information and forecasting systems, and their application in cities in various European climates. In addition to the forecast of the worst air-pollution episodes in large cities, the potential use of improved weather forecasts for nuclear emergency management in urban areas, in case of hazardous releases from nuclear accidents or terror acts, is considered. Such use of NWP data is tested for the Copenhagen metropolitan area and the Oresund region. The Danish Meteorological Institute (DMI) is running an experimental version of the HIRLAM NWP model over Zealand including the Copenhagen metropolitan area with a horizontal resolution of 1.4 km, thus approaching the city-scale. This involves 1-km resolution physiographic data with implications for the urban surface parameters, e.g. surface fluxes, roughness length and albedo. For the city of Copenhagen, the enhanced high-resolution NWP forecasting will be provided to demonstrate the improved dispersion forecasting capabilities of the Danish nuclear emergency preparedness decision-support system, the Accident Reporting and Guidance Operational System (ARGOS), used by the Danish Emergency Management Agency (DEMA). Recently, ARGOS has been extended with a capability of real-time calculation of regional-scale atmospheric dispersion of radioactive material from accidental releases. This is effectuated through on-line interfacing with the Danish Emergency Response Model of the Atmosphere (DERMA), which is run at DMI. For local-scale modelling of atmospheric dispersion, ARGOS utilises the Local-Scale Model Chain (LSMC), which makes use of high-resolution DMI

  4. Brief on nuclear emergency planning and preparedness in Ontario

    International Nuclear Information System (INIS)

    1987-01-01

    Ontario has an excellent conceptual plan to ensure the safety of its inhabitants in the event of a nuclear accident anywhere in the world. This plan still needs to be translated into tangible preparedness to deal with such an emergency. The province is confident that, with the assistance of Ontario Hydro, a high level of nuclear emergency preparedness will soon be established for the people of the province

  5. Emergency preparedness exercises for nuclear facilities: Preparation, conduct and evaluation

    International Nuclear Information System (INIS)

    1985-01-01

    This publication offers guidance for operating organizations and public authorities on planning, organizing and conducting exercises, preparing scenarios and evaluating the results of exercises in order to make full use of the experience gained in improving the response planning and preparedness for radiation emergencies. The training aspects associated with achieving an adequate level of emergency preparedness are explored and examples of accident scenarios are presented

  6. Emergency preparedness in Germany. Development of manuals for emergency exercises

    International Nuclear Information System (INIS)

    Bath, N.; Berg, H.P.

    2001-01-01

    Extensive technical and administrative measures are taken in the German nuclear power plants in order to be able to perform effective on-site accident management in case that an event actually occurs. Because of the 'beyond-design-basis' character of these accidents, there are no detailed regulations and guidelines for the development of emergency preparedness in Germany. However, it has become common practice to perform at least one emergency exercise per year in every German nuclear plant. Bundesamt fuer Strahlenschutz has launched a project for the development of a manual for planning, co-ordination, and assessment of on-site accident management exercises. The objective is to establish an approach with a sound technical basis harmonized on federal level. The current status of this project and further activities are described.(author)

  7. Emergency preparedness and response plan for nuclear facilities in Indonesia

    International Nuclear Information System (INIS)

    Nur Rahmah Hidayati; Pande Made Udiyani

    2009-01-01

    All nuclear facilities in Indonesia are owned and operated by the National Nuclear Energy Agency (BATAN). The programs and activities of emergency planning and preparedness in Indonesia are based on the existing nuclear facilities, i.e. research reactors, research reactor fuel fabrication plant, radioactive waste treatment installation and radioisotopes production installation. The assessment is conducted to learn of status of emergency preparedness and response plan for nuclear facilities in Indonesia and to support the preparation of future Nuclear Power Plant. The assessment is conducted by comparing the emergency preparedness and response system in Indonesia to the system in other countries such as Japan and Republic of Korea, since the countries have many Nuclear Power Plants and other nuclear facilities. As a result, emergency preparedness response plan for existing nuclear facility in Indonesia has been implemented in many activities such as environmental monitoring program, facility monitoring equipment, and the continuous exercise of emergency preparedness and response. However, the implementation need law enforcement for imposing the responsibility of the coordinators in National Emergency Preparedness Plan. It also needs some additional technical support systems which refer to the system in Japan or Republic of Korea. The systems must be completed with some real time monitors which will support the emergency preparedness and response organization. The system should be built in NPP site before the first NPP will be operated. The system should be connected to an Off Site Emergency Center under coordination of BAPETEN as the regulatory body which has responsibility to control of nuclear energy in Indonesia. (Author)

  8. Emergency preparedness and internal contamination monitoring

    International Nuclear Information System (INIS)

    Rahola, T.; Suomela, M.

    2000-01-01

    After the radiation accidents in Chernobyl, Ukraina in 1986 and in Goiania, Brasil in 1987, much resource have been spent on improving emergency preparedness. Especially regarding transfer of information using the most recent techniques and establishment of 24 hour emergency service of radiation safety experts the development has been fast. The very first measures in a possible emergency situation have been trained nationally and internationally. Less attention has been paid to measures in a somewhat later phase. To be able to react fast enough in an emergency situation it is essential to have well documented plans, written instructions and suitable measurement equipment ready for use. Equally important is that there is trained staff prepared to do measurements without delay. In the first phase of a nuclear accident radioactive iodine is of primary concern regarding internal contamination. After the Chernobyl accident the number of childhood thyroidea cancer clearly exceeded the expected number. Reliable direct measurements of I-131 in the thyroidea in Ukraina, Russia and Belarussia were done only to a limited number of children. Many uncertainties are involved in the data used for dose estimation. Later the body burdens of radiocesium or other radionuclides might be of most importance. Normal whole-body counting instruments can be used if only small groups need to be measured. For large groups of people in an emergency situation faster methods are needed. Different types of monitors installed at places where radiation workers are controlled for internal contamination as well as gamma cameras at hospitals can be used. Rapid field measurements of the whole-body and especially of the thyroid can been done with less sophisticated instruments. In the acute phase of a nuclear accident such measurements should be done without delay. Instruments and staff trained to use them should be available and plans for which groups of people to measure prepared. The detection level

  9. Assessment of Evacuation Protective Action Strategies For Emergency Preparedness Plan

    Energy Technology Data Exchange (ETDEWEB)

    Lee, Joomyung; Jae, Moosung [Hanyang Univ., Seoul (Korea, Republic of); Ahn, Kwangil [Korea Atomic Energy Research Institute, Daejeon (Korea, Republic of)

    2013-10-15

    This report which studies about evacuation formation suggests some considerable factors to reduce damage of radiological accidents. Additional details would be required to study in depth and more elements should be considered for updating emergency preparedness. However, this methodology with sensitivity analysis could adapt to specific plant which has total information such as geological data, weather data and population data. In this point of view the evacuation study could be contribute to set up emergency preparedness plan and propose the direction to enhance protective action strategies. In radiological emergency, residents nearby nuclear power plant should perform protective action that is suggested by emergency preparedness plan. The objective of emergency preparedness plan is that damages, such as casualties and environmental damages, due to radioactive accident should be minimized. The recent PAR study includes a number of subjects to improve the quality of protective action strategies. For enhancing protective action strategies, researches that evaluate many factors related with emergency response scenario are essential parts to update emergency preparedness plan. Evacuation is very important response action as protective action strategy.

  10. Assessment of Evacuation Protective Action Strategies For Emergency Preparedness Plan

    International Nuclear Information System (INIS)

    Lee, Joomyung; Jae, Moosung; Ahn, Kwangil

    2013-01-01

    This report which studies about evacuation formation suggests some considerable factors to reduce damage of radiological accidents. Additional details would be required to study in depth and more elements should be considered for updating emergency preparedness. However, this methodology with sensitivity analysis could adapt to specific plant which has total information such as geological data, weather data and population data. In this point of view the evacuation study could be contribute to set up emergency preparedness plan and propose the direction to enhance protective action strategies. In radiological emergency, residents nearby nuclear power plant should perform protective action that is suggested by emergency preparedness plan. The objective of emergency preparedness plan is that damages, such as casualties and environmental damages, due to radioactive accident should be minimized. The recent PAR study includes a number of subjects to improve the quality of protective action strategies. For enhancing protective action strategies, researches that evaluate many factors related with emergency response scenario are essential parts to update emergency preparedness plan. Evacuation is very important response action as protective action strategy

  11. Stockpile strategy for China's emergency oil reserve: A dynamic programming approach

    International Nuclear Information System (INIS)

    Bai, Y.; Dahl, C.A.; Zhou, D.Q.; Zhou, P.

    2014-01-01

    China is currently accelerating construction of its strategic petroleum reserves. How should China fill the SPR in a cost-effective manner in the short-run? How might this affect world oil prices? Using a dynamic programming model to answer these questions, the objective of this paper is to minimize the stockpiling costs, including consumer surplus as well as crude acquisition and holding costs. The crude oil acquisition price in the model is determined by global equilibrium between supply and demand. Demand, in turn, depends on world market conditions including China's stockpile filling rate. Our empirical study under different market conditions shows that China's optimal stockpile acquisition rate varies from 9 to 19 million barrels per month, and the optimal stockpiling drives up the world oil price by 3–7%. The endogenous price increase accounts for 52% of total stockpiling costs in the base case. When the market is tighter or the demand function is more inelastic, the stockpiling affects the market more significantly and pushes prices even higher. Alternatively, in a disruption, drawdown from the stockpile can effectively dampen soaring prices, though the shortage is likely to leave the price higher than before the disruption. - Highlights: • China's SPR policies are examined by dynamic programming. • The optimal stockpile acquisition rate varies from 9 to 19 million barrels per month. • The optimal stockpiling drives up world oil price by 3–7%

  12. 1986 viewpoint of emergency preparedness in the upper midwest

    International Nuclear Information System (INIS)

    Parkyn, J.D.

    1986-01-01

    The recent Soviet emergency preparedness disaster has started a new round of interactions between utilities and civil governments regarding the adequacy of emergency preparedness around nuclear plants. The 1986 annual meeting of the cooperative produced several questions regarding the potentials of the plant and its impact on the public and the cooperative in the event of an off-normal situation. Emergency preparedness requires a real partnership between local civil authorities and the utility in a close spirit of cooperation with local law enforcement, which is frequently charged with the strongest burdens of emergency planning. It is more evident that the virtual veto power of local branches of government over emergency preparedness needs to be more fully recognized by utilities. Early notification and warning systems are coming under a tighter scrutiny as public perception of their fallibility increases. Another continuing problem with emergency preparedness has been the recognition that guarantees of reaching every individual, particularly in more hostile environments, can not be easily made. The lessons learned in nuclear planning indicate that this is an area too often not given a high enough threshold in the total spectrum of nuclear safety and which, from the utility standpoint, needs to be elevated to a higher threshold of importance

  13. Off-site emergency preparedness activities within the European Commission

    International Nuclear Information System (INIS)

    Kelly, G.N.

    1998-01-01

    Increasing attention is being given by the European Commission to off-site emergency preparedness as part of its broader contribution to improving nuclear safety in Eastern Europe. The main initiatives being taken or planned by the Commission in this area are summarised. Particular attention is given to two topics: Firstly, the development of the RODOS (Real-time On-line DecisiOn Support) system for supporting off-site emergency management in the event of a nuclear accident; and, secondly, the work of an Inter-Service Group on nuclear Off-Site Emergency Preparedness (OSEP) in Eastern Europe that has been established within the Commission. The contribution that each is making to improving emergency preparedness, both in Eastern Europe and in Europe more widely, is described. (orig.)

  14. European commission contribution to improving off-site emergency preparedness

    International Nuclear Information System (INIS)

    Kelly, G.N.

    1996-01-01

    Increasing attention is being given by the European Commission to off-site emergency preparedness as part of its broader contribution to improving nuclear safety in Eastern Europe. The main initiatives being taken or planned by the Commission in this area are summarized. Particular attention is given to two topics: firstly, the development of the RODOS (Real-time On-line Decision Support) system for supporting off-site emergency management in the event of a nuclear accident; and, secondly, the work of an Inter-Service Group on nuclear Off-Site Emergency Preparedness (OSEP) in Eastern Europe that has recently been established within the Commission. The contribution that each is making to improving emergency preparedness, both in Eastern Europe and in Europe more widely, is described

  15. Transportation of Hazardous Materials Emergency Preparedness Hazards Assessment

    International Nuclear Information System (INIS)

    Blanchard, A.

    2000-01-01

    This report documents the Emergency Preparedness Hazards Assessment (EPHA) for the Transportation of Hazardous Materials (THM) at the Department of Energy (DOE) Savannah River Site (SRS). This hazards assessment is intended to identify and analyze those transportation hazards significant enough to warrant consideration in the SRS Emergency Management Program

  16. Transportation of Hazardous Materials Emergency Preparedness Hazards Assessment

    Energy Technology Data Exchange (ETDEWEB)

    Blanchard, A.

    2000-02-28

    This report documents the Emergency Preparedness Hazards Assessment (EPHA) for the Transportation of Hazardous Materials (THM) at the Department of Energy (DOE) Savannah River Site (SRS). This hazards assessment is intended to identify and analyze those transportation hazards significant enough to warrant consideration in the SRS Emergency Management Program.

  17. Strengthening Emergency Preparedness in Higher Education through Hazard Vulnerability Analysis

    Science.gov (United States)

    Fifolt, Matthew; Burrowes, Jeffrey; McPherson, Tarrant; McCormick, Lisa C.

    2016-01-01

    Experts have noted a great deal of variability among U.S. higher education institutions' planning and preparedness for emergency situations. However, resources are available to help campus leaders effectively mitigate, prepare for, respond to, and recover from a multitude of disaster scenarios. One way for emergency managers and campus leaders to…

  18. Hospital all-risk emergency preparedness in Ghana | Norman ...

    African Journals Online (AJOL)

    (2) The hospitals' respective abilities to handle large scale RTA's were ... The biggest challenge facing the hospitals in their emergency intervention is the lack of preemergency and emergency preparedness plans as well as the coordination of the hospitals response mechanisms. Conclusion: The paper ended with ...

  19. Transportation of hazardous materials emergency preparedness hazards assessment

    International Nuclear Information System (INIS)

    Blanchard, A.

    2000-01-01

    This report documents the Emergency Preparedness Hazards Assessment (EPHA) for the Transportation of Hazardous Materials (THM) at the Department of Energy (DOE) Savannah River Site (SRS). This hazards assessment is intended to identify and analyze those transportation hazards significant enough to warrant consideration in the SRS Emergency Management Program

  20. Emergency Preparedness: A Handbook for Families.

    Science.gov (United States)

    1982-06-01

    Advancement of Science, 1966. FAMILY HANDYMAN MAGAZINE. America’s Handyman Book. New York: Charles Scribner’s Sons, 1980. FARACE , Richard V., Kenneth...1972. FARACE , Richard V. Communication Strategies for Crisis Relocation Planning. Washington, D.C.: Defense Civil Preparedness Agency, November 1975... FARACE , Richard V., Kenneth L. Villard, and L. Edna Rogers. Family Communication About Plans for Natural and Nuclear Disasters. Washington, D.C

  1. Importance ranking of various aspects of offsite radiological emergency preparedness

    International Nuclear Information System (INIS)

    Hockert, J.W.; Carter, T.F.

    1987-01-01

    Under contract to the Edison Electric Institute, IEAL developed a method to assess the relative importance of various aspects of offsite radiological emergency preparedness. The basic approach involved structuring the 35 objectives that the Federal Emergency Management Agency expects offsite emergency planners to demonstrate during nuclear power plant emergency preparedness exercises into a hierarchy based upon the emergency response capabilities they support. The analytical hierarchy process (AHP) was employed to derive the quantitative relative importance of each of the 35 objectives based upon its contribution to the overall capability of offsite agencies to assist in protecting public health and safety in the event of an emergency at a nuclear power plant. The judgments of a cross-section of state and local emergency planners, federal regulators, and intervenors were solicited to rank the 35 objectives

  2. Radiation Emergency Preparedness Tools: Virtual Community Reception Center

    Centers for Disease Control (CDC) Podcasts

    2011-02-28

    This podcast is an overview of resources from the Clinician Outreach and Communication Activity (COCA) Call: Practical Tools for Radiation Emergency Preparedness. A specialist working with CDC's Radiation Studies Branch describes a web-based training tool known as a Virtual Community Reception Center (vCRC).  Created: 2/28/2011 by National Center for Environmental Health (NCEH) Radiation Studies Branch and Emergency Risk Communication Branch (ERCB)/Joint Information Center (JIC); Office of Public Health Preparedness and Response (OPHPR).   Date Released: 2/28/2011.

  3. Characterization of emergency preparedness at DOE contractor facilities

    International Nuclear Information System (INIS)

    Gillings, J.C.; Murphy, B.L.; Corbit, C.D.

    1984-07-01

    A study of emergency preparedness capabilities at DOE facilities was initiated following the incident at the Three Mile Island (TMI) Nuclear Power Station. It was designed to parallel but expand on a study on emergency preparedness instrumentation that was conducted in 1970 by Pacific Northwest Laboratory. The 1970 survey findings led to the publication of four reports on performance criteria for radiological emergency instrumentation. Three of these reports - BNWL-1635 (Selby et al. 1972), BNWL-1742 (Anderson et al. 1974) and BNWL-1857 (Andersen et al. 1976) - addressed the criteria for emergency instrumentation at reactors, mixed oxide fuel fabrication plants, and fuel reprocessing plants, respectively. The fourth report, BNWL-1991 (Bramson et al. 1976), addressed evaluation testing and calibration methodology for these instruments. This report is presented in three parts. Part One is a review of the BNWL documents to determine whether they are applicable to state-of-the-art instrument capabilities. The Appendix to Part One provides a comparison between the instrument performance criteria established in BNWL-1991 to applicable American National Standards Institute (ANSI) standards for portable survey and contamination meters, installed radiation and area monitors, effluent monitors, calibration techniques, criticality detection systems, alarm systems, and direct reading dosimeters. Part Two compares the 1970 survey results with the 1980 survey results to identify trends in emergency preparedness. Part Three is a discussion of the results of the 1980 emergency preparedness survey and the supporting data for each of the 15 modules. 8 references

  4. Radiological emergency preparedness arrangements in the European Commission

    International Nuclear Information System (INIS)

    Tanner, V.

    2002-01-01

    The purpose of this paper is to give an overview of the different procedures established within the European Commission, which are relevant to radiological emergency planning and response. Although emergency preparedness is a national responsibility within the European Union, the Commission has clearly defined operational tasks in terms of emergency information exchange and community foodstuff regulations. In addition the Commission promotes research programmes and training courses in the field

  5. Challenge of hospital emergency preparedness: analysis and recommendations.

    Science.gov (United States)

    Barbera, Joseph A; Yeatts, Dale J; Macintyre, Anthony G

    2009-06-01

    In the United States, recent large-scale emergencies and disasters display some element of organized medical emergency response, and hospitals have played prominent roles in many of these incidents. These and other well-publicized incidents have captured the attention of government authorities, regulators, and the public. Health care has assumed a more prominent role as an integral component of any community emergency response. This has resulted in increased funding for hospital preparedness, along with a plethora of new preparedness guidance.Methods to objectively measure the results of these initiatives are only now being developed. It is clear that hospital readiness remains uneven across the United States. Without significant disaster experience, many hospitals remain unprepared for natural disasters. They may be even less ready to accept and care for patient surge from chemical or biological attacks, conventional or nuclear explosive detonations, unusual natural disasters, or novel infectious disease outbreaks.This article explores potential reasons for inconsistent emergency preparedness across the hospital industry. It identifies and discusses potential motivational factors that encourage effective emergency management and the obstacles that may impede it. Strategies are proposed to promote consistent, reproducible, and objectively measured preparedness across the US health care industry. The article also identifies issues requiring research.

  6. Feasibility study for a computerized emergency preparedness simulation facility

    International Nuclear Information System (INIS)

    Gerhardstein, L.H.; Schroeder, J.O.; Sandusky, W.F.

    1979-11-01

    This report details the feasibility of a computerized Emergency Preparedness Simulation Facility (EPSF) for use by the Nuclear Regulatory Commission (NRC). The proposed facility would be designed to provide the NRC and other federal, state, and local government agencies with a capability to formulate, test, and evaluate the Emergency Preparedness Plans (EPP) which local and state agencies have/will establish for use during nuclear emergencies. In cases of any state emergency (including a nuclear emergency), high level state government officials will direct emergency procedures and insure that state and local emergency teams carry out tasks which have been established in their EPP. When an emergency exists, rapid mobilization of emergency teams, efficient communication, and effective coordination of individual team efforts is essential to safety, preservation of property, and overall public welfare. Current EPP evaluation procedures are qualitative in nature and while they do compare emergency drill performance with the EPP, the nature of the drills often does not provide enough realism to actual emergency conditions. Automated simulation of real emergency conditions using modern computer equipment and programming techniques will provide the NRC emergency evaluation teams a simulated environment which closely approximates conditions which would actually exist during a real emergency. In addition, the computer can be used to collect and log performance and event data which will aid the evaluation team in making assessments of the state or local area's EPP and their Emergency Preparedness Teams performance during emergency drills. Overall, a computerized EPSF can improve drill testing and evaluation efficiency, provide approximate emergency condition realism, and improve public awareness of local emergency procedures

  7. Roles and contributions of pharmacists in regulatory affairs at the Centers for Disease Control and Prevention for public health emergency preparedness and response.

    Science.gov (United States)

    Bhavsar, Tina R; Kim, Hye-Joo; Yu, Yon

    To provide a general description of the roles and contributions of three pharmacists from the Regulatory Affairs program (RA) at the Centers for Disease Control and Prevention (CDC) who are involved in emergency preparedness and response activities, including the 2009 pandemic influenza A (H1N1) public health emergency. Atlanta, GA. RA consists of a staff of nine members, three of whom are pharmacists. The mission of RA is to support CDC's preparedness and emergency response activities and to ensure regulatory compliance for critical medical countermeasures against potential threats from natural, chemical, biological, radiological, or nuclear events. RA was well involved in the response to the H1N1 outbreak through numerous activities, such as submitting multiple Emergency Use Authorization (EUA) requests to the Food and Drug Administration, including those for medical countermeasures to be deployed from the Strategic National Stockpile, and developing the CDC EUA website (www.cdc.gov/h1n1flu/eua). RA will continue to support current and future preparedness and emergency response activities by ensuring that the appropriate regulatory mechanisms are in place for the deployment of critical medical countermeasures from the Strategic National Stockpile against threats to public health.

  8. Harmonisation of Nuclear Emergency Preparedness in Central and Eastern Europe

    International Nuclear Information System (INIS)

    Buglova, E.; Crick, M.; Reed, J.; Winkler, G. L.; Martincic, R.

    2000-01-01

    Under its Technical Co-operation programme the International Atomic Energy Agency has implementing a Regional Project RER/9/050:- Harmonisation of Regional Nuclear Emergency Preparedness for its Member States in the Europe region since 1997. The background of the project together with its achievements and future plans are presented in this paper. (author)

  9. A Study of Terrorism Emergency Preparedness Policies in School Districts

    Science.gov (United States)

    Umoh, Emmanuel

    2013-01-01

    The threat of terrorism is a concern in public facilities including schools. This study focused on school districts in a southwestern state. Terrorism emergency preparedness policies are well-documented as measures to protect students and staff in school districts from terrorism threats and vulnerabilities. However, those threats and…

  10. Radiation Emergency Preparedness Tools: Virtual Community Reception Center

    Centers for Disease Control (CDC) Podcasts

    This podcast is an overview of resources from the Clinician Outreach and Communication Activity (COCA) Call: Practical Tools for Radiation Emergency Preparedness. A specialist working with CDC's Radiation Studies Branch describes a web-based training tool known as a Virtual Community Reception Center (vCRC).

  11. Hospital disaster emergency preparedness: A study of Onandjokwe ...

    African Journals Online (AJOL)

    This study explored disaster emergency preparedness at Onandjokwe Lutheran Hospital in Northern Namibia. It utilized quantitative and qualitative research methods, using a self-administered questionnaire, semi-structured key informant interviews, and a hospital disaster plan checklist. A stratified sample of 120 ...

  12. assessment of the birth and emergency preparedness level of ...

    African Journals Online (AJOL)

    honey

    2014-03-31

    Mar 31, 2014 ... the birth and emergency preparedness level of 250 pregnant women attending Antenatal Care (ANC) in a Primary. Health Care (PHC) ... obtained from the hypothesis method and based on the following assumption: 95% confidence level, prevalence .... order to reduce morbidity and mortality in pregnancy.

  13. Further development of nuclear emergency preparedness in Norway

    International Nuclear Information System (INIS)

    Harbitz, O.

    1995-06-01

    The threatpattern regarding nuclear accidents is summarized and the development of the Norwegian emergency preparedness through the last 10 years is examined. Relevant countermeasures during the acute phase of an accident is described and the sharing of responsibilities between central, regional and local level is presented. Suggestions on education and training are given. 9 refs., 2 figs

  14. Emergency preparedness and response for the non-reactor countries

    International Nuclear Information System (INIS)

    Buglova, E.

    2000-01-01

    Preparedness and response for nuclear and radiological accidents in the countries without nuclear power plants (NPP) have some peculiarities. Accident at the Chernobyl NPP clearly showed the necessity of effective response for non-reactor countries in the case of transboundary release. Experience obtained in Belarus is providing evidence for the necessity of changing some aspects of emergency preparedness. The results of analysis made of some protective actions taken during the early stage of the accident form the basis for recommendations provided this paper. Real experience is supported by model predictions of the consequences for the hypothetical accident at a NPP close to the Belarus. (author)

  15. IAEA New recommendations in the area of emergency preparedness

    International Nuclear Information System (INIS)

    Maresova, B.; Koc, J.; Burianova, J.

    2014-01-01

    The poster is based on the latest recommendations of the IAEA safety standards relating to a response to an occurrence of radiation emergency situations. One analyzes how to implement the reference levels of the general criteria in the current practice providing an emergency preparedness in the Czech Republic. However, as the general criteria are represented by dose values, it is proposed to introduce the predetermined operational intervention levels (OILs). The operational intervention levels expressed in directly measurable dosimetric parameters along with the values of emergency action levels (EALs) represent a new direction in the area of emergency preparedness which streamlines a choice of suitable protective actions in the event of radiological accident. The poster also presents the draft how to apply the general system for an assessment of radiological health risks based on the block schemes connecting directly measured dosimetric values with the corresponding radiation health risks. (authors)

  16. Application of Fuzzy Theory to Radiological Emergency Preparedness

    International Nuclear Information System (INIS)

    Han, Moon Hee; Jeong, Hyo Joon; Kim, Eun Han; Suh, Kyung Suk; Hwang, Won Tae

    2005-01-01

    Emergency preparedness for nuclear facility is considered as an important part for public health and safety. In an emergency, it is not easy to get the information which is needed for the operation of an emergency system. Even though the lack of the information, decision-maker should make an early decision for the public. And the real situation is often not crisp and deterministic. The concept of fuzzy set provides the mathematical formulations which can characterize the uncertain variables in the models related to radiological emergency preparedness. And it provides a method which can describe the characteristics of uncertain variables represented by the fuzzy membership functions, and the effects of distribution can be handled with the fuzzy relation and the fuzzy reasoning. By the application of linguistic variables and fuzzy algorithms, it is possible to provide an approximate and effective tool to describe the system which is too complex or ill defined to use precise mathematical analysis

  17. 340 Facility emergency preparedness hazards assessment

    International Nuclear Information System (INIS)

    Campbell, L.R.

    1998-01-01

    This document establishes the technical basis in support of Emergency Planning activities for the 340 Facility on the Hanford Site. Through this document, the technical basis for the development of facility specific Emergency Action Levels and Emergency Planning Zone, is demonstrated

  18. Emergency planning and preparedness for a nuclear accident

    International Nuclear Information System (INIS)

    Rahe, E.P.

    1985-01-01

    Based on current regulations, FEMA approves each site-specific plan of state and local governments for each power reactor site after 1) formal review offsite preparedness, 2) holding a public meeting at which the preparedness status has been reviewed, and 3) a satisfactory joint exercise has been conducted with both utility and local participation. Annually, each state, within any position of the 10-mile emergency planning zone, must conduct a joint exercise with the utility to demonstrate its preparedness for a nuclear accident. While it is unlikely that these extreme measures will be needed as a result of an accident at a nuclear power station, the fact that these plans have been well thought out and implemented have already proven their benefit to society. The preparedness for a nuclear accident can be of great advantage in other types of emergencies. For example, on December 11, 1982, a non-nuclear chemical storage tank exploded at a Union Carbide plant in Louisiana shortly after midnight. More than 20,000 people were evacuated from their homes. They were evacuated under the emergency response plan formulated for use in the event of a nuclear accident at the nearby Waterford Nuclear plants. Clearly, this illustrates how a plan conceived for one purpose is appropriate to handle other types of accidents that occur in a modern industrial society

  19. Transportation radiological emergency preparedness: STAR 95 Exercise final report

    International Nuclear Information System (INIS)

    1998-01-01

    Emergency response for a transportation accident involving radiological materials, while not inherently difficult, presents a challenge for several reasons. These accidents, although they can occur anywhere, are rare. Also, although the health consequences are usually slight, accidents involving radioactive materials generally cause a great deal of concern, both for the emergency responders and the general public. How can communities be prepared for an event that requires some technical knowledge, but is so rare that it will never occur in most areas, without expending an effort disproportionate to the actual risk? How can one appropriately deal with an event that may cause excessive public concern? These questions are at the heart of the preparedness issues this program addressed. The overall goal of the Transportation Emergency Preparedness Program was to establish the framework for a coordinated response by all levels of government to a transportation accident involving radioactive material. The Program involved both preparedness activities and the development, conduct and evaluation of a field exercise in Saratoga County, New York. This Report concentrates on the functional activities, lessons learned, recommendations, and action plans for improving preparedness and response to a transportation accident involving radioactive materials

  20. Nuclear threats and emergency preparedness in Finland; Ydinuhkat ja varautuminen

    Energy Technology Data Exchange (ETDEWEB)

    Mustonen, R; Aaltonen, H; Laaksonen, J; Lahtinen, J; Rantavaara, A; Reponen, H; Rytoemaa, T; Suomela, M; Toivonen, H; Varjoranta, T

    1995-10-01

    The political and economic upheavals which have taken place in Eastern Europe have had an impact on radiation and nuclear safety throughout Europe. Emergency preparedness systems for unexpected nuclear events have been developed further in all European countries, and prosperous western nations have invested in improving the safety of East European nuclear power plants. The economic crisis facing countries of the former Soviet Union has also promoted illicit trade in nuclear materials; this has made it necessary for various border guards and police authorities to intensify their collaboration and to tighten border controls. On 3-4 October 1995, Finnish Centre for Radiation and Nuclear Safety (STUK) arranged a seminar on nuclear threats and emergency preparedness in Finland. In addition to STUK experts, a wide range of rescue and civil defence authorities, environmental health specialists and other persons engaged in emergency preparedness attended the seminar. The publication contains a compilation of reports presented at the seminar. The reports cover a broad spectrum of nuclear threats analyzed at STUK, the impacts of radioactive fallout on human beings and on the environment, and preparedness systems by which the harmful effects of radiation or nuclear accidents can, if necessary, be minimized. (33 figs., 5 tabs.).

  1. Planning and training in emergency preparedness

    International Nuclear Information System (INIS)

    Perkins, T.G.

    1985-01-01

    Link Simulation Systems Division of the Singer Company is combining its tactical simulation and display system with state-of-the-art decision and control technology to provide a combined operations, planning, and training (COPAT) system. This system provides for the total integration of the three primary responsibilities of emergency managers: planning and training for and decision and control of an emergency. The system is intended to be a complete operations center for emergency management personnel. In the event of a natural disaster or man-made emergency, the national, state, county, and city emergency managers require a secure and reliable operations center. The COPAT system combines the decision and control capabilities with proven simulation techniques allowing for integrated planning and training. The hardware system, software, data bases, and maps used during planning and training are the same as those used during actual emergencies

  2. Emergency preparedness and response in transport of radioactive material

    International Nuclear Information System (INIS)

    Takani, Michio

    2008-01-01

    Nuclear power has been providing clean, affordable electricity in many parts of the world for nearly half a century. The national and international transport of nuclear fuel cycle materials is essential to support this activity. To sustain the nuclear power industry, fuel cycle materials have to be transported safely and efficiently. The nature of the industry is such that most countries with large-scale nuclear power industries cannot provide all the necessary fuel services themselves and consequently nuclear fuel cycle transport activities are international. The radioactive material transport industry has an outstanding safety record spanning over 45 years; however the transport of radioactive materials cannot and most not be taken for granted. Efficient emergency preparedness and response in the transport of radioactive material is an important element to ensure the maximum safety in accident conditions. The World Nuclear Transport Institute (WNTI), founded by International Nuclear Services (INS) of the United Kingdom, AREVA of France an the Federation of Electric Power Companies (FEPC) of Japan, represents the collective interest of the radioactive material transport sector, and those who rely on safe, effective and reliable transport. As part of its activities, WNTI has conducted two surveys through its members on emergency preparedness and response in the transport of radioactive material and emergency exercises. After recalling the International Atomic Energy Agency approach on emergency response, this paper will be discussing the main conclusion of surveys, in particular the national variations in emergency response and preparedness on the national and local levels of regulations, the emergency preparedness in place, the emergency response organisation (who and how), communication and exercises. (author)

  3. Preparation, conduct and evaluation of exercises to test preparedness for a nuclear or radiological emergency. Emergency preparedness and response

    International Nuclear Information System (INIS)

    2005-04-01

    The aim of this publication is to serve as a practical tool for the preparation, conduct and evaluation of exercises to test preparedness for response to a nuclear or radiological emergency. It fulfils in part the functions assigned to the IAEA under Article 5.a(ii) of the Convention on Assistance in Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), namely, to collect and disseminate to States Parties and Member States information concerning the methodologies, techniques and available results of research on such emergencies. To ensure effective response to radiation emergencies when needed, provisions should be made for regular training of emergency response personnel. As stated in Preparedness and Response for a Nuclear or Radiological Emergency (Safety Requirements, Safety Standard Series No. GS-R-2), 'The operator and the response organizations shall make arrangements for the selection of personnel and training to ensure that the personnel have the requisite knowledge, skills, abilities, equipment, procedures and other arrangements to perform their assigned response functions'. A further requirement is that 'Exercise programmes shall be conducted to ensure that all specified functions required to be performed for emergency response and all organizational interfaces for facilities in threat category I, II or III and the national level programmes for threat category IV or V are tested at suitable intervals'. In 2004 the IAEA General Conference, in resolution GC(48)/RES/10 encouraged Member States to 'implement the Safety Requirements for Preparedness and Response to a Nuclear or Radiological Emergency'. This document is published as part of the IAEA Emergency Preparedness and Response Series to assist in meeting these requirements and to fulfil Article 5 of the Assistance Convention. It was developed based on a number of assumptions about national and local capabilities. Therefore, the exercise structure, terms and scenarios must be

  4. Preparedness for emerging infectious diseases: pathways from anticipation to action.

    Science.gov (United States)

    Brookes, V J; Hernández-Jover, M; Black, P F; Ward, M P

    2015-07-01

    Emerging and re-emerging infectious disease (EID) events can have devastating human, animal and environmental health impacts. The emergence of EIDs has been associated with interconnected economic, social and environmental changes. Understanding these changes is crucial for EID preparedness and subsequent prevention and control of EID events. The aim of this review is to describe tools currently available for identification, prioritization and investigation of EIDs impacting human and animal health, and how these might be integrated into a systematic approach for directing EID preparedness. Environmental scanning, foresight programmes, horizon scanning and surveillance are used to collect and assess information for rapidly responding to EIDs and to anticipate drivers of emergence for mitigating future EID impacts. Prioritization of EIDs - using transparent and repeatable methods - based on disease impacts and the importance of those impacts to decision-makers can then be used for more efficient resource allocation for prevention and control. Risk assessment and simulation modelling methods assess the likelihood of EIDs occurring, define impact and identify mitigation strategies. Each of these tools has a role to play individually; however, we propose integration of these tools into a framework that enhances the development of tactical and strategic plans for emerging risk preparedness.

  5. Chemical Stockpile Disposal Program

    Energy Technology Data Exchange (ETDEWEB)

    Krummel, J.R.; Policastro, A.J.; Olshansky, S.J.; McGinnis, L.D.

    1990-10-01

    As part of the Chemical Stockpile Disposal Program mandated by Public Law 99--145 (Department of Defense Authorization Act), an independent review is presented of the US Army Phase I environmental report for the disposal program at the Umatilla Depot Activity (UMDA) in Hermiston, Oregon. The Phase I report addressed new and additional concerns not incorporated in the final programmatic environmental impact statement (FPEIS). Those concerns were addressed by examining site-specific data for the Umatilla Depot Activity and by recommending the scope and content of a more detailed site-specific study. This independent review evaluates whether the new site-specific data presented in the Phase I report would alter the decision in favor of on-site disposal that was reached in the FPEIS, and whether the recommendations for the scope and content of the site-specific study are adequate. Based on the methods and assumptions presented in the FPEIS, the inclusion of more detailed site-specific data in the Phase I report does not change the decision reached in the FPEIS (which favored on-site disposal at UMDA). It is recommended that alternative assumptions about meteorological conditions be considered and that site-specific data on water, ecological, socioeconomic, and cultural resources; seismicity; and emergency planning and preparedness be considered explicitly in the site-specific EIS decision-making process. 7 refs., 1 fig.

  6. Chemical Emergency Preparedness and Prevention Advisory: Ammonia

    Science.gov (United States)

    This advisory recommends ways Local Emergency Planning Committees (LEPCs) and chemical facilities can minimize risks from this extremely hazardous substance, especially when present in excess of its 500 pounds threshold planning quantity.

  7. Critical evaluation of emergency stockpile ventilators in an in vitro model of pediatric lung injury.

    Science.gov (United States)

    Custer, Jason W; Watson, Christopher M; Dwyer, Joe; Kaczka, David W; Simon, Brett A; Easley, R Blaine

    2011-11-01

    Modern health care systems may be inadequately prepared for mass casualty respiratory failure requiring mechanical ventilation. Current health policy has focused on the "stockpiling" of emergency ventilators, though little is known about the performance of these ventilators under conditions of respiratory failure in adults and children. In this study, we seek to compare emergency ventilator performance characteristics using a test lung simulating pediatric lung injury. Evaluation of ventilator performance using a test lung. Laboratory. None. Six transport/emergency ventilators capable of adult/child application were chosen on the basis of manufacturer specifications, Autovent 3000, Eagle Univent 754, EPV 100, LP-10, LTV 1200, and Parapac 200D. Manufacturer specifications for each ventilator were reviewed and compared with known standards for alarms and functionality for surge capacity ventilators. The delivered tidal volume, gas flow characteristics, and airway pressure waveforms were evaluated in vitro using a mechanical test lung to model pediatric lung injury and integrated software. Test lung and flow meter recordings were analyzed over a range of ventilator settings. Of the six ventilators assessed, only two had the minimum recommended alarm capability. Four of the six ventilators tested were capable of being set to deliver a tidal volume of less than 200 mL. The delivered tidal volume for all ventilators was within 8% of the nominal setting at a positive end expiratory pressure of zero but was reduced significantly with the addition of positive end expiratory pressure (range, ±10% to 30%; p ventilators tested performed comparably at higher set tidal volumes; however, only three of the ventilators tested delivered a tidal volume across the range of ventilator settings that was comparable to that of a standard intensive care unit ventilator. Multiple ventilators are available for the provision of ventilation to children with respiratory failure in a mass

  8. State-level emergency preparedness and response capabilities.

    Science.gov (United States)

    Watkins, Sharon M; Perrotta, Dennis M; Stanbury, Martha; Heumann, Michael; Anderson, Henry; Simms, Erin; Huang, Monica

    2011-03-01

    Prior assessments of public health readiness had identified gaps in radiation preparedness. In recent years, preparedness planning has involved an "all-hazards" approach. Current assessment of the national status related to radiation public health emergency preparedness capabilities at the state and local health department levels was needed. A survey of state health departments related to radiation readiness was undertaken in 2010 by the Council of State and Territorial Epidemiologists (CSTE). States with nuclear power plants were instructed to consider their responses exclusive of capabilities and resources related to the plants given that the emergency response plans for nuclear power plants are specific and unique. Thirty-eight (76%) state health departments responded to the survey, including 26 of the 31 states with nuclear power plants. Specific strengths noted at the state level included that the majority of states had a written radiation response plan and most plans include a detailed section for communications issues during a radiation emergency. In addition, more than half of the states indicated that their relationship with federal partners is sufficient to provide resources for radiation emergencies, indicating the importance states placed on federal resources and expertise. Specific weaknesses are discussed and include that most states had completed little to no planning for public health surveillance to assess potential human health impacts of a radiation event; less than half had written plans to address exposure assessment, environmental sampling, human specimen collection and analysis, and human health assessment. Few reported having sufficient resources to do public health surveillance, radiation exposure assessment, laboratory functions and other capabilities. Levels of planning, resources and partnerships varied among states, those with nuclear power plants were better prepared. Gaps were evident in all states; however and additional training and

  9. Technological considerations in emergency instrument preparedness

    International Nuclear Information System (INIS)

    Selby, J.M.

    1975-01-01

    The types of emergency instrumentation systems necessary to characterize the severity and extent of radiation accidents and to aid in the protection of operating personnel and personnel living near the plant are discussed. These include instruments for direct measurement of the airborne radioactive material within the facility, fixed instrumentation for ambient dose rate monitoring or area monitoring, and portable instruments for environmental monitoring

  10. Emergency Preparedness – Working in Partnership

    Directory of Open Access Journals (Sweden)

    Simon Lewis

    2012-07-01

    Full Text Available I had the immense privilege to provide a presentation of the above title to a conference at the University of St. Andrews in February of this year. The conference, entitled ‘Assessing the Emergency Response to Terrorism’, was hosted by the University’s Centre for the Study of Terrorism and Political Violence (CSTPV.

  11. 75 FR 42448 - Board of Scientific Counselors, Coordinating Office for Terrorism Preparedness and Emergency...

    Science.gov (United States)

    2010-07-21

    ... DEPARTMENT OF HEALTH AND HUMAN SERVICES Centers for Disease Control and Prevention Board of Scientific Counselors, Coordinating Office for Terrorism Preparedness and Emergency Response; Notice of..., 1972, that the Board of Scientific Counselors, Coordinating Office for Terrorism Preparedness and...

  12. Standardization of GIS datasets for emergency preparedness of NPPs

    International Nuclear Information System (INIS)

    Saindane, Shashank S.; Suri, M.M.K.; Otari, Anil; Pradeepkumar, K.S.

    2012-01-01

    Probability of a major nuclear accident which can lead to large scale release of radioactivity into environment is extremely small by the incorporation of safety systems and defence-in-depth philosophy. Nevertheless emergency preparedness for implementation of counter measures to reduce the consequences are required for all major nuclear facilities. Iodine prophylaxis, Sheltering, evacuation etc. are protective measures to be implemented for members of public in the unlikely event of any significant releases from nuclear facilities. Bhabha Atomic Research Centre has developed a GIS supported Nuclear Emergency Preparedness Program. Preparedness for Response to Nuclear emergencies needs geographical details of the affected locations specially Nuclear Power Plant Sites and nearby public domain. Geographical information system data sets which the planners are looking for will have appropriate details in order to take decision and mobilize the resources in time and follow the Standard Operating Procedures. Maps are 2-dimensional representations of our real world and GIS makes it possible to manipulate large amounts of geo-spatially referenced data and convert it into information. This has become an integral part of the nuclear emergency preparedness and response planning. This GIS datasets consisting of layers such as village settlements, roads, hospitals, police stations, shelters etc. is standardized and effectively used during the emergency. The paper focuses on the need of standardization of GIS datasets which in turn can be used as a tool to display and evaluate the impact of standoff distances and selected zones in community planning. It will also highlight the database specifications which will help in fast processing of data and analysis to derive useful and helpful information. GIS has the capability to store, manipulate, analyze and display the large amount of required spatial and tabular data. This study intends to carry out a proper response and preparedness

  13. Emergency Preparedness for Disasters and Crises in the Hotel Industry

    OpenAIRE

    Ahmad Rasmi AlBattat; Ahmad Puad Mat Som

    2013-01-01

    Safety and security are the most important issues to tourist while traveling and the first aspect they consider is to be protected from hazards. Emergency planning and preparedness for a crisis are the most significant components of dealing with disasters. Hospitality practitioners noticed a rising number of natural and man-made crises that harm the hospitality industry, regarding its vulnerability to crisis and intern...

  14. Research on evacuation planning as nuclear emergency preparedness

    International Nuclear Information System (INIS)

    Yamamoto, Kazuya

    2007-10-01

    The International Atomic Energy Agency (IAEA) has introduced new concepts of precautionary action zone (PAZ) and urgent protective action planning zone (UPZ) in 'Preparedness and Response for a Nuclear or Radiological Emergency' (GS-R-2 (2002)), in order to reduce substantially the risk of severe deterministic health effects. Open literature based research was made to reveal problems on evacuation planning and the preparedness for nuclear emergency arising from introduction of PAZ into Japan that has applied the emergency planning zone (EPZ) concept currently. In regard to application of PAZ, it should be noted that the requirements for preparedness and response for a nuclear or radiological emergency are not only dimensional but also timely. The principal issue is implementation of evacuation of precautionary decided area within several hours. The logic of evacuation planning for a nuclear emergency and the methods of advance public education and information in the U.S. is effective for even prompt evacuation to the outside of the EPZ. As concerns evacuation planning for a nuclear emergency in Japan, several important issues to be considered were found, that is, selection of public reception centers which are outside area of the EPZ, an unique reception center assigned to each emergency response planning area, public education and information of practical details about the evacuation plan in advance, and necessity of the evacuation time estimates. To establish a practical evacuation planning guide for nuclear emergencies, further researches on application of traffic simulation technology to evacuation time estimates and on knowledge of actual evacuation experience in natural disasters and chemical plant accidents are required. (author)

  15. Ar-41 measurements and nuclear emergency preparedness

    International Nuclear Information System (INIS)

    Kunst, J.J.; Rodriguez, M.; Ugarte, R.; Vigile, R.S.; Boutet, L.I.; Jordan, O.D.; Hernandez, D.G.

    2010-01-01

    During the early phase of an emergency is necessary to confirm the release of radioactivity predictions made by the operator of the nuclear plant. In this context, it has begun measuring Ar-41 in the vicinity of a research reactor. Since the Ar-41 is produced in the reactor, it has been studied as a good way to validate the air dispersion model used in nuclear emergencies and to develop a method to improve the characterization of the release. For this latter purpose a pilot experiment was conducted to determine computational and experimental methods, the flux of 1.29 MeV of Ar-41 and compared to evaluate the accuracy of the assessments made. This paper describes meteorological forecasting systems used in the experiment, the estimate of the stability class and the concentration of nuclides using a calculation code developed by the ARN, as well as the methodology and equipment used for measurement in the field. (authors) [es

  16. Nuclear emergency preparedness in the Netherlands

    International Nuclear Information System (INIS)

    Dal, A.H.; Molhoek, W.; Leest, A.M.M.; Moen, J.E.T.; Sonderen, J.F. van; Aldenkamp, F.J.

    1997-01-01

    The Dutch organisation for nuclear emergency management has been described in previous papers. Briefly, the Ministry of Housing, Spatial Planning and Environment (VROM) and the Ministry of the Interior (BIZA) coordinate the input of all other Ministries and agencies at the government level, and provide the general strategy for dealing with the situation at hand. Any indication of a possible nuclear incident may alert the organization. Signals indicating, such incidents are continuously collected by the Emergency Management Department a VROM in the Hague. An expert group is permanently available for the evaluation of serious warnings, either via bilateral or other international contacts (IAEA, EC, neighbouring countries) or through the Dutch early warning monitoring network via the National Institute of Public Health and the Environment (RIVM). The chairman of this evaluation group has the authority to decide whether to start up the National Organization for Nuclear Emergency Management. Its start means the installation of a Policy Team of Cabinet Ministers or their representatives, and the involvement of many authorities and organizations at the national, provincial and local levels

  17. Quality Control of Meteorological Data for the Chemical Stockpile Emergency Preparedness Program

    Science.gov (United States)

    2009-03-01

    Time constant 10 s — Solar radiation Eppley 8–48 pyranometer Resolution 10 W m22 10 W m22 Accuracy 65% 65% Time constant 5 s 5 s Spectral response 285...sensor above 90% RH. c 22 W m22 allows for the potential negative offset produced by radiative cooling of the dome of the pyranometer on clear nights...and the winds are light, which suggests that frost may be forming on the pyranometer dome during the night. (The pyranometers are not equipped with

  18. Nuclear emergency preparedness and response in Germany

    International Nuclear Information System (INIS)

    Miska, H.

    2009-01-01

    Off-site nuclear emergency response in Germany is divided into disaster response under the responsibility of the Laender and measures for precautionary radiation protection pursuant to the Precautionary Radiation Protection Act under the lead of federal authorities. Early countermeasures at the regional level require a different management than long-term and comprehensive actions of precautionary radiation protection. As situations may arise in which measures of both approaches overlap with regard to place and time, it is essential to make thorough preparations in order to avoid problems with implementation. (orig.)

  19. Emergency planning and preparedness for nuclear facilities

    International Nuclear Information System (INIS)

    Koelzer, W.

    1988-01-01

    Nuclear installations are designed, constructed and operated in such a way that the probability for an incident or accident is very low and the probability for a severe accident with catastrophic consequences is extremely small. These accidents represent the residual risk of the nuclear installation, and this residual risk can be decreased on one hand by a better design, construction and operation and on the other hand by planning and taking emergency measures inside the facility and in the environment of the facility. By way of introduction and definition it may be indicated to define some terms pertaining to the subject in order to make for more uniform understanding. (orig./DG)

  20. Emergency preparedness to nuclear accidents in the Czech Republic

    International Nuclear Information System (INIS)

    Starostova, V.; Prouza, Z.; Koldus, F.; Rutova, H.

    2003-01-01

    Full text: Emergency preparedness to nuclear accidents (radiation emergency preparedness) is a part of general emergency preparedness and crisis management in the Czech Republic. The bases for it were given in 1997 when radiation emergency preparedness was defined and requirements to it were given in Act No. 18/1997 Coll., so called the Atomic Act, which entered into force in July 1997. In 2000, the bases for general emergency preparedness and crisis management in the Czech Republic were given namely in two acts - in Act No. 239/2000 Coll., an integrated rescue system, and in Act No. 240/2000 Coll., on crisis management. Both these acts entered into force on 1 January 2001. The Atomic Act determines duties of licensees in the field of preparedness. One of them is obligation to prepare and submit to SUJB the on-site emergency plan as one of attachments to his application for the licence. (The licence can be issued if defined documents, including this plan, are approved.) The licensee is obliged, under conditions given in detail in one of implementing regulation, to prepare a proposal of the emergency planning zone and submit it to SUJB. In the Act, there are also given the requirements for licensee's actions in case of a radiation emergency occurrence. On the other hand the Atomic Act names what are SUJB competencies and also what are these ones from the point of view of radiation emergency. Among others SUJB establishes the emergency planning zone, controls the activity of the National Radiation Monitoring Network, provides for the activities of an Emergency Response Centre and ensures the availability of background information necessary to take decisions aimed at reducing or averting exposure in the case of a radiation accident. SUJB has its own crisis staff; it has 4 shifts, which change regularly weekly. About 50 SUJB employees divided into 12 different functions are members of this staff. The Emergency Response Centre (ERC) of SUJB organizes work of this staff

  1. Transfer factors for nuclear emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Kostiainen, E.; Haenninen, R. [Radiation and Nuclear Safety Authority (STUK) (Finland); Rosen, K.; Haak, E.; Eriksson, Aa. [Swedish Univ. of Agricultural Science (Sweden); Nielsen, S.P.; Keith-Roach, M. [Risoe National Lab. (Denmark); Salbu, B. [Agricultural Univ. of Norway (Norway)

    2002-12-01

    This report by the NKS/BOK-1.4 project subgroup describes transfer factors for radiocaesium and radiostrontium for the fallout year and the years after the fallout. The intention has been to collect information on tools to assess the order of magnitude of radioactive contamination of agricultural products in an emergency situation in Nordic environment. The report describes transfer paths from fallout to plant, from soil to plant and to animal products. The transfer factors of radionuclides (Sr, Cs, I) given in the report are intended to be used for making rough estimates of the contamination of agricultural products soon after the heaviness and composition of the deposition (Bq m{sup -2}) is known. (au)

  2. Transfer factors for nuclear emergency preparedness

    International Nuclear Information System (INIS)

    Kostiainen, E.; Haenninen, R.; Rosen, K.; Haak, E.; Eriksson, Aa.; Nielsen, S.P.; Keith-Roach, M.; Salbu, B.

    2002-12-01

    This report by the NKS/BOK-1.4 project subgroup describes transfer factors for radiocaesium and radiostrontium for the fallout year and the years after the fallout. The intention has been to collect information on tools to assess the order of magnitude of radioactive contamination of agricultural products in an emergency situation in Nordic environment. The report describes transfer paths from fallout to plant, from soil to plant and to animal products. The transfer factors of radionuclides (Sr, Cs, I) given in the report are intended to be used for making rough estimates of the contamination of agricultural products soon after the heaviness and composition of the deposition (Bq m -2 ) is known. (au)

  3. Emergency preparedness for nuclear power plants in the USA

    International Nuclear Information System (INIS)

    Schwartz, S.A.

    1986-01-01

    In the case of an operating reactor, if it is determined that there are such deficiencies that a favourable NRC finding is not warranted and if the deficiencies are not corrected within four months of that determination, the Commission will determine whether the reactor should be shut down or whether some other enforcement action is appropriate. In any case, where the Commission believes that the public health, safety, or interest so requires, the plant will be required to shut down immediately. Emergency planning considerations must be extended to emergency planning zones, and these shall consist of an area of about 10 miles in radius for exposure to the radioactive plume that might result from an accident in a nuclear power reactor and an area of about 50 miles in radius for food that might become contaminated. To evaluate the effectiveness of the licensee programme to implement their emergency plan, a 'management oversight and risk tree' (MORT) approach was developed and used by NRC appraisal teams at all operating facilities and those close to licensing. Since April 1981, over 250 emergency preparedness exercises have been observed and annual inspections conducted at US commercial nuclear power generating facilities. As a result of this experience, licensees have generally progressed from a basic ability to implement their plan to a systematic demonstration of their emergency preparedness capabilities. Almost five years have elapsed since the inception of the upgraded emergency preparedness regulatory programme, and the NRC is evaluating the resources committed to the programme to determine if modifications are appropriate. Our goal is to ensure continued adequate readiness capability to protect the public health and safety in the event of an accident

  4. Emergency response preparedness: the French experience of large scale exercises

    International Nuclear Information System (INIS)

    Chanson, D.; Desnoyers, B.; Chabane, J.M.

    2004-01-01

    In compliance with the IAEA regulations for the transport of radioactive material in the event of accidents during transport of radioactive material, emergency provisions to protect persons, property and environment have to be established and developed by the relevant national organisations. In France, the prefect of the department where the accident occurs is responsible for decisions and measures required to ensure the protection of both population and property at risk owing to the accident. During an accident, the ministers concerned provide the prefect with recommendations and information, in order to help him take the requisite decisions. On their side, the nuclear industry and transport companies also have to be prepared to intervene and to support the authorities at their request, depending on their capacities and their specialities. To prepare the emergency teams properly and acquire effective emergency plans, training exercises have to be conducted regularly with every ministerial department involved, the nuclear industry and transport companies, members of the public and the media. Then, the feedback from such exercises shall be taken into account to improve the emergency procedures. This paper will introduce: - emergency response preparedness: what is required by the relevant regulations? - emergency response preparedness: how is France organised? - the French experience of conducting large training exercises simulating accidents involving the transport of radioactive material; - the main difficulties and lessons learned; - the perspectives

  5. Integration of multi-technology on oil spill emergency preparedness.

    Science.gov (United States)

    Liao, Zhenliang; Hannam, Phillip M; Xia, Xiaowei; Zhao, Tingting

    2012-10-01

    This paper focuses on the integration of technologies including Case-Based Reasoning (CBR), Genetic Algorithm (GA) and Artificial Neural Network (ANN) for establishing emergency preparedness for oil spill accidents. In CBR, the Frame method is used to define case representation, and the HEOM (Heterogeneous Euclidean-Overlap Metric) is improved to define the similarity of case properties. In GA, we introduce an Improved Genetic Algorithm (IGA) that achieves case adaptation, in which technologies include the Multi-Parameter Cascade Code method, the Small Section method for generation of an initial population, the Multi-Factor Integrated Fitness Function, and Niche technology for genetic operations including selection, crossover, and mutation. In ANN, a modified back-propagation algorithm is employed to train the algorithm to quickly improve system preparedness. Through the analysis of 32 fabricated oil spill cases, an oil spill emergency preparedness system based on the integration of CBR, GA and ANN is introduced. In particular, the development of ANN is presented and analyzed. The paper also discusses the efficacy of our integration approach. Copyright © 2012 Elsevier Ltd. All rights reserved.

  6. Preparedness for remote possibility of a nuclear emergency

    International Nuclear Information System (INIS)

    Fujishiro, Toshio

    2001-01-01

    Nuclear disaster prevention is fundamentally preparedness for emergency with extremely lower forming probability. In order to establish allowance of nuclear energy application from society, it is essential that it brings relief feelings with preparedness and without anxiety among everything. At a time when use of nuclear energy was begun, a consciousness that a nuclear facility was one highly considered on its safety faster than that in the other industries was large and intense, and then recognition of necessity for nuclear disaster prevention was extremely minute. However, the nuclear emergency of critical accident at the JCO fuel processing facility in Tokai-mura formed on September 30, 1999 gave Japanese extremely large impact so as fundamentally to change actual feelings against conventional nuclear disaster prevention. Here was introduced on efforts onto reinforcement of nuclear disaster prevention together with establishment of the special measure rule nuclear disaster prevention countermeasure as well as its advantages and progress, to investigate on a subject to do it for a preparedness with effectiveness for obtaining real safe feelings. (G.K.)

  7. The process of learning from emergency preparedness cooperation in international schools

    OpenAIRE

    Pham, Hanh

    2014-01-01

    Master's thesis in Risk management and societal safety The cooperation between schools and organizations can encourage schools to learn about safety procedures and preparation for emergencies to improve the school emergency preparedness. In the international schools in Stavanger, learning from emergency preparedness cooperation can be optimized when knowledge creation contributes to improve the school capability and update or change the school emergency preparedness activities. However, de...

  8. Theory-based approaches to understanding public emergency preparedness: implications for effective health and risk communication.

    Science.gov (United States)

    Paek, Hye-Jin; Hilyard, Karen; Freimuth, Vicki; Barge, J Kevin; Mindlin, Michele

    2010-06-01

    Recent natural and human-caused disasters have awakened public health officials to the importance of emergency preparedness. Guided by health behavior and media effects theories, the analysis of a statewide survey in Georgia reveals that self-efficacy, subjective norm, and emergency news exposure are positively associated with the respondents' possession of emergency items and their stages of emergency preparedness. Practical implications suggest less focus on demographics as the sole predictor of emergency preparedness and more comprehensive measures of preparedness, including both a person's cognitive stage of preparedness and checklists of emergency items on hand. We highlight the utility of theory-based approaches for understanding and predicting public emergency preparedness as a way to enable more effective health and risk communication.

  9. Emergency preparedness 1995 site support plan WBS 6.7.2.3

    International Nuclear Information System (INIS)

    Faulk, S.M.

    1994-09-01

    The Emergency Preparedness Program provides an emergency management system including occurrence notification; development, coordination, and direction of planning, preparedness, and readiness assurance for response to emergency events on the Hanford Site; and emergency management support to Department of Energy, Richland Operations Office (RL)

  10. Radiation emergency medical preparedness and assistance network in China

    International Nuclear Information System (INIS)

    Su, Xu

    2008-01-01

    Full text: Rapid economic growth in demand has given rise to power shortage in China. The installed capacity of nuclear power has been scheduled to reach 36-40 GW in preliminary plans, which is about 4% of China's energy supply by 2020. On the other hand, the number of radiation facilities rises 7% annually, while this figure for medical accelerators and CT is 15%. With the application of radiation sources increasing, the possibility of accidents exposure is growing. The radiation emergency medical preparedness is increasingly practically challenging. CCMRRE (Chinese Center for Medical Response to Radiation Emergency), which functions as a national and professional institute with departments for clinic, monitoring and evaluating and technical supporting, was established in 1992. Clinic departments of haematological and surgical centres, and specialists in the radiation diagnosis and therapy, is responsible for the medical assistance in radiation accidents. The monitoring and evaluating department with bio-dosimetry, physical dosimetry and radiation monitoring laboratory, concentrates in radiation monitoring, dose estimating of accident exposure. Technical support department with advisors and experts in exposure dose estimating, radiation protecting and injury treating, provides technical instruction in case of nuclear and radiological accidents. In addition, around whole country, local organization providing first assistance, regional clinic treatment and radiation protection in nuclear accidents has been established. To strengthen the capability of radiation emergency medical response and to improve the cooperation with local organization, the managers and involved staffs were trained in skill frequently. The medical preparedness exercise, which mimics the nuclear accidents condition, was organized by CCMRRE and performed in 2007. The performances demonstrated that the radiation emergency medical preparedness and assistance system is prompt, functional and

  11. Emergency Preparedness for Disasters and Crises in the Hotel Industry

    Directory of Open Access Journals (Sweden)

    Ahmad Rasmi AlBattat

    2013-09-01

    Full Text Available Safety and security are the most important issues to tourist while traveling and the first aspect they consider is to be protected from hazards. Emergency planning and preparedness for a crisis are the most significant components of dealing with disasters. Hospitality practitioners noticed a rising number of natural and man-made crises that harm the hospitality industry, regarding its vulnerability to crisis and internal and external hazards. By using secondary data, this study aims to shed some light on this issue, contributing to knowledge and awareness on emergency preparedness for the hospitality industry. Moreover, the study aims to explain the management’s commitment to adopt, develop, and update emergency plans. The results of this study explain that tourism as an international mobile industry must respond to internal and external hazards such as disease movement and terrorist attacks. Marketing safety is important to promote hotels and tourist destinations to the guests and holiday advisors. Hotels have a long history of being a soft target for terrorist attacks, as can be seen in several accidents that have shaken the hotel industry in the past few decades. Hotels invest a lot to install protective techniques, but terrorists are becoming more organized. Practitioners propose disaster management frameworks using several measurements. Recovery from crisis and learning help business retention that minimizes negative impacts and prevent losses. Finally, evaluation and feedback are very important to overcome the hazards and return to normal, as well as adopting new ideas to deal with emergencies. Single- and double-loop organizational learning should benefit proactive preparedness.

  12. Some issues on nuclear and radiological emergency preparedness and response in China

    International Nuclear Information System (INIS)

    Pan Ziqiang

    1999-01-01

    The nuclear emergency preparedness and response have comprehensively been developed over ten years in China. In order to promote the sound development of emergency preparedness and response, it is useful to retrospect the process of emergency preparedness and response, to summarize the experiences and absorb the experiences from foreign countries. The main issues are as follows: 1) The preparedness and response to nuclear and radiological accident is basically the same as the response to any accident involving hazardous material. 2) The classification of emergency planning, not only for nuclear facilities, but also irradiation installation, etc. 3) The hazard assessment-- a top priority. 4) The emergency planning zones. 5) Psychological impact

  13. Preparation of site emergency preparedness plans for nuclear installations

    International Nuclear Information System (INIS)

    1999-10-01

    Safety of public, occupational workers and the protection of environment should be assured while activities for economic and social progress are pursued. These activities include the establishment and utilisation of nuclear facilities and use of radioactive sources. This safety guidelines is issued as a lead document to facilitate preparation of specific site manuals by the responsible organisation for emergency response plans at each site to ensure their preparedness to meet any eventuality due to site emergency in order to mitigate its consequences on the health and safety of site personnel. It takes cognizance of an earlier AERB publications on the subject: Safety manual on site emergency plan on nuclear installations. AERB/SM/NISD-1, 1986 and also takes into consideration the urgent need for promoting public awareness and drawing up revised emergency response plans, which has come about in a significant manner after the accidents at Chernobyl and Bhopal

  14. Emergency planning and preparedness for the deliberate release of toxic industrial chemicals.

    Science.gov (United States)

    Russell, David; Simpson, John

    2010-03-01

    Society in developed and developing countries is hugely dependent upon chemicals for health, wealth, and economic prosperity, with the chemical industry contributing significantly to the global economy. Many chemicals are synthesized, stored, and transported in vast quantities and classified as high production volume chemicals; some are recognized as being toxic industrial chemicals (TICs). Chemical accidents involving chemical installations and transportation are well recognized. Such chemical accidents occur with relative frequency and may result in large numbers of casualties with acute and chronic health effects as well as fatalities. The large-scale production of TICs, the potential for widespread exposure and significant public health impact, together with their relative ease of acquisition, makes deliberate release an area of potential concern. The large numbers of chemicals, together with the large number of potential release scenarios means that the number of possible forms of chemical incident are almost infinite. Therefore, prior to undertaking emergency planning and preparedness, it is necessary to prioritize risk and subsequently mitigate. This is a multi-faceted process, including implementation of industrial protection layers, substitution of hazardous chemicals, and relocation away from communities. Residual risk provides the basis for subsequent planning. Risk-prioritized emergency planning is a tool for identifying gaps, enhancing communication and collaboration, and for policy development. It also serves to enhance preparedness, a necessary prelude to preventing or mitigating the public health risk to deliberate release. Planning is an iterative and on-going process that requires multi-disciplinary agency input, culminating in the formation of a chemical incident plan complimentary to major incident planning. Preparedness is closely related and reflects a state of readiness. It is comprised of several components, including training and exercising

  15. Research on environmental impacts of nuclear power and emergency preparedness

    International Nuclear Information System (INIS)

    Vuori, S.

    1994-01-01

    The future needs of nuclear energy research in Finland have been recently reviewed by an expert group. Concerning the research on environmental impacts and emergency preparedness, the group recommended the establishment of a common coordination group for the different projects in this field. The main objectives in this field include efficient accident management and mitigation of off-site consequences with appropriate countermeasures and more reliable real time prediction tools for atmospheric dispersion and radiation dose evaluations as well as efficient and fast real time surveillance and measurement systems. (orig.)

  16. Emergency planning and preparedness of the Dalat Nuclear Research Institute

    International Nuclear Information System (INIS)

    Luong, B.V.

    2001-01-01

    The effectiveness of measures taken in case of accident or emergency to protect the site personnel, the general public and the environment will depend heavily on the adequacy of the emergency plan prepared in advance. For this reason, an emergency plan of the operating organization shall cover all activities planned to be carried out in the event of an emergency, allow for determining the level of the emergency and corresponding level of response according to the severity of the accident condition, and be based on the accidents analysed in the SAR as well as those additionally postulated for emergency planning purposes. The purpose of this paper is to present the practice of the emergency planning and preparedness in the Dalat Nuclear Research Institute (DNRI) for responding to accidents/incidents that may occur at the DNRI. The DNRI emergency plan and emergency procedures developed by the DNRI will be discussed. The information in the DNRI emergency plan such as the emergency organization, classification and identification of emergencies; intervention measures; the co-ordination with off-site organizations; and emergency training and drills will be described in detail. The emergency procedures in the form of documents and instructions for responding to accidents/incidents such as accidents in the reactor, accidents out of the reactor but with significant radioactive contamination, and fire and explosion accidents will be mentioned briefly. As analysed in the Safety Analysis Report for the DNRI, only the in-site actions are presented in the paper and no off-site emergency measures are required. (author)

  17. U.S. Strategy for Bioterrorism Emergency Medical Preparedness and Response

    National Research Council Canada - National Science Library

    Lugo, Angel

    2003-01-01

    ... diseases and mass casualty dangers. The 2002 National Strategy for Homeland Security includes numerous emergency preparedness and response initiatives as part of the overall homeland security strategy...

  18. Radiological Emergency Preparedness using Old ORTEC Whole Body Counter

    International Nuclear Information System (INIS)

    Badawy, W.M.

    2012-01-01

    During a radiological emergency (RE) a large number of occupational and public may be exposed externally and to a number of radionuclides internally as a result of inhalation or injection. The radiological effect is directly proportional to the time of exposure and the activity of the contaminant materials. The main task of this paper is to show the emergency preparedness capability of using the old ORTEC whole body counter (WBC). In case of a nuclear accident ORTEC WBC is ready for use to estimate the radioactivity which inhaled or digested with food, as well as in case of medical exposure in general and nuclear medicine in particular. The present study showed that the duration time to make analysis for only one individual is about 25 min. Hence 57 individuals are monitored per day. Consequently, old ORTEC WBC is effective tool in field of research and limited use for radiological and nuclear emergencies

  19. Radiation emergency medical preparedness and assistance network in Korea

    International Nuclear Information System (INIS)

    Kim, E. S.; Kong, H. J.; Noh, J. H.; Lim, Y. K.; Kim, C. S.

    2003-01-01

    Nationwide Medical Preparedness for Nuclear Accidents as an integral part of nuclear safety system has been discussed for several years and Radiation Health Research Institute (RHRI) of Korea Hydro and Nuclear Power Co. was established on July, 1999. The National Radiation Emergency Medical Center (NREMC) of Korea Cancer Center Hospital was also founded on September, 2002. Two organizations have established Radiation Emergency Medical Preparedness and Assistance Network in Korea to cope with accidental situations in nuclear power plants and also in handling sites of radionuclides. In order to construct an effective Nationwide Emergency Medical Network System they maintain good cooperation among regional hospitals. RHRI is going to make three types of medical groups, that is to say, the collaboration of the regional (primary appointed) hospital group around the nuclear power plants, the regional core (secondary appointed) hospital group and the central core hospital (RHRI). NREMC is also playing a central role in collaboration with 10 regional hospitals. Two cores are working key role for the maintenance of the network. Firstly, They maintain a radiological emergency response team consisting of physicians, nurses, health physicists, coordinators, and necessary support personnel to provide first-line responders with consultative or direct medical and radiological assistance at their facility or at the accident site. Secondly, they serves educational programs for the emergency personnel of collaborating hospitals not only as a treatment facility but also as a central training and demonstration unit. Regularly scheduled courses for the physician and nurse, and health/medical physicists are conducted. Therefore, to activate Nationwide Emergency Medical Network System and to maintain it for a long time, well-trained specialists and budgetary supports are indispensable

  20. Sports-Related Emergency Preparedness in Oregon High Schools.

    Science.gov (United States)

    Johnson, Samuel T; Norcross, Marc F; Bovbjerg, Viktor E; Hoffman, Mark A; Chang, Eunwook; Koester, Michael C

    Best practice recommendations for sports-related emergency preparation include implementation of venue-specific emergency action plans (EAPs), access to early defibrillation, and first responders-specifically coaches-trained in cardiopulmonary resuscitation and automated external defibrillator (AED) use. The objective was to determine whether high schools had implemented these 3 recommendations and whether schools with a certified athletic trainer (AT) were more likely to have done so. Schools with an AT were more likely to have implemented the recommendations. Cross-sectional study. Level 4. All Oregon School Activities Association member school athletic directors were invited to complete a survey on sports-related emergency preparedness and AT availability at their school. Chi-square and Fisher exact tests were used to analyze the associations between emergency preparedness and AT availability. In total, 108 respondents (37% response rate) completed the survey. Exactly half reported having an AT available. Only 11% (95% CI, 6%-19%) of the schools had implemented all 3 recommendations, 29% (95% CI, 21%-39%) had implemented 2, 32% (95% CI, 24%-42%) had implemented 1, and 27% (95% CI, 19%-36%) had not implemented any of the recommendations. AT availability was associated with implementation of the recommendations (χ 2 = 10.3, P = 0.02), and the proportion of schools with ATs increased with the number of recommendations implemented (χ 2 = 9.3, P Schools with an AT were more likely to implement venue-specific EAPs (52% vs 24%, P schools were inadequately prepared for sports-related emergencies. Schools with an AT were more likely to implement some, but not all, of the recommendations. Policy changes may be needed to improve implementation. Most Oregon high schools need to do more to prepare for sports-related emergencies. The results provide evidence for sports medicine professionals and administrators to inform policy changes that ensure the safety of athletes.

  1. 47 CFR 0.387 - Other national security and emergency preparedness delegations; cross reference.

    Science.gov (United States)

    2010-10-01

    ... 47 Telecommunication 1 2010-10-01 2010-10-01 false Other national security and emergency... COMMISSION GENERAL COMMISSION ORGANIZATION Delegations of Authority National Security and Emergency Preparedness Delegations § 0.387 Other national security and emergency preparedness delegations; cross...

  2. Emergency Preparedness and Response at Nuclear Power Plants in Pakistan

    Energy Technology Data Exchange (ETDEWEB)

    Khan, L. A.; Qamar, M. A.; Liaquat, M.R., E-mail: samasl@yahoo.com [Pakistan Atomic Energy Commission, Islamabad (Pakistan)

    2014-10-15

    Emergency preparedness and response arrangements at Nuclear Power Plants (NPPs) in Pakistan have been reevaluated in the light of Fukushima Daiichi accident. Appropriate measures have been taken to strengthen and effectively implement the on-site and off-site emergency plans. Verification of these plans is conducted through regulatory review and by witnessing periodic emergency drills and exercises conducted by the NPPs in the fulfilment of the regulatory requirements. Emergency Planning Zones (EPZs) have been revised at NPPs. A multi discipline reserve force has been formed for assistance during severe accidents. Nuclear Emergency Management System (NEMS) has been established at the national level in order to make necessary arrangements for responding to nuclear and radiological emergencies. Training programs for first responders and medical professionals have been launched. Emergencies coordination centres have been established at national and corporate levels. Public awareness program has been initiated to ensure that the surrounding population is provided with appropriate information on emergency planning and response. To share national and international operational experience, Pakistan has arranged various workshops and developed a strong link with International Atomic Energy Agency (IAEA). (author)

  3. Severe accidents risk assessment as a basis for emergency preparedness

    International Nuclear Information System (INIS)

    Sinka, D.; Mikulicic, V.

    2000-01-01

    The paper demonstrates, by example of the Republic of Croatia, the possibilities of implementing risk assessment as basis for nuclear accident emergency preparedness development. Individual risks of severe accidents for citizens of the biggest Croatian population centers, as well as collective risk for entire population have been assessed using the PRONEL method. The assessment covered 90 power reactors located at a distance up to 1.000 km. The conducted assessment shows the risks for various regions of the Republic of Croatia, and comparison between them. If risk would be taken as basic criterion in nuclear emergency planning, the results of assessment would directly indicate the necessary preparation level for each region. Furthermore, the assessment of risks from individual power plants and power plant types indicates to which facilities the greatest attention should be paid in nuclear accidents preparedness development. Risks from groups of power plants formed in accordance with their respective distance from exposure location shows what kind of tools for determining consequences and protective actions during a nuclear accident should be made available. (author)

  4. Safety and emergency preparedness considerations for geotechnical field operations

    Energy Technology Data Exchange (ETDEWEB)

    Wemple, R.P.

    1989-04-01

    The GEO Energy Technology Department at Sandia National Laboratories is involved in several remote-site drilling and/or experimental operations each year. In 1987, the Geothermal Research Division of the Department developed a general set of Safe Operating Procedures (SOPs) that could be applied to a variety of projects. This general set is supplemented by site-specific SOPs as needed. Effective field operations require: integration of safety and emergency preparedness planning with overall project planning, training of field personnel and inventorying of local emergency support resources, and, developing a clear line of responsibility and authority to enforce the safety requirements. Copies of SOPs used in recent operations are included as examples of working documents for the reader.

  5. Emergency preparedness and response: achievements, future needs and opportunities

    International Nuclear Information System (INIS)

    Kelly, G.N.

    2000-01-01

    The Chernobyl accident had a profound effect on emergency preparedness and response world-wide and particularly within Europe. Deficiencies in arrangements for dealing with such a large accident, at both national and international levels (eg, world trade in foodstuffs), led to many problems of both a practical and political nature. Many lessons were learnt and considerable resources have since been committed to improve emergency preparedness and avoid similar problems in future. Improvements have been made at national, regional and international levels and have been diverse in nature. Some of the more notable at an international level are the convention on early notification, limits for the contamination of foodstuffs in international trade and broad agreement on the principles of intervention (albeit less so on their practical interpretation). At a regional level, many bi and multi-lateral agreements have been brought into to force for the timely exchange of information and the efficacy of these arrangements is increasingly being demonstrated by regional exercises. At a national level, the improvements have been diverse, ranging from the installation of extensive networks of gamma monitors to provide early warning of an accident to more robust and effective arrangements between the many organisations with a role or responsibility in an emergency. More than a decade after Chernobyl, it is timely to reflect on what has been achieved in practice and, in particular, whether there is a need for further improvement and, if so, where these aspects will be addressed in the context of the likelihood the decreasing resources will be allocated to this area in future as memories fade post Chernobyl. Particular attention will be given to: the potential for advances in informatics, communications and decision support to provide better emergency preparedness and response at reduced cost; the adequacy of guidance on intervention for the long tern management of containment areas

  6. Emergency nurses' perceptions of emergency department preparedness for an ebola outbreak: A qualitative descriptive study.

    Science.gov (United States)

    Pincha Baduge, Mihirika Sds; Moss, Cheryle; Morphet, Julia

    2017-05-01

    Ebola Virus Disease is highly contagious and has high mortality. In 2014, when the outbreak in West Africa was declared a public health emergency, emergency departments in Australia commenced preparation and vigilance for people presenting with ebola like symptoms, to limit spread of the disease. To examine Australian emergency nurses' perceptions regarding their own and their emergency departments' preparedness to manage an ebola outbreak. A qualitative descriptive design was used to collect and analyse data in one metropolitan emergency department in Victoria, Australia. Four focus groups were conducted with 13 emergency nurses. Data were thematically analysed. Major themes emerged from the data: organisational, personal and future preparedness. Participants' believed that both the organisation and themselves had achieved desirable and appropriate preparedness for ebola in their emergency setting. Participants trusted their organisation to prepare and protect them for ebola. Appropriate policies, procedures, and equipment infrastructure were reportedly in place. Nurses' decisions to care for a patient with ebola were informed by professional commitment, and personal responsibilities. Participants were concerned about transmitting ebola to their families, and suggested that more regular training in personal protective equipment would increase confidence and skill in self-protection. Copyright © 2017 College of Emergency Nursing Australasia. Published by Elsevier Ltd. All rights reserved.

  7. Business and public health collaboration for emergency preparedness in Georgia: a case study

    Directory of Open Access Journals (Sweden)

    Berkelman Ruth L

    2006-11-01

    Full Text Available Abstract Background Governments may be overwhelmed by a large-scale public health emergency, such as a massive bioterrorist attack or natural disaster, requiring collaboration with businesses and other community partners to respond effectively. In Georgia, public health officials and members of the Business Executives for National Security have successfully collaborated to develop and test procedures for dispensing medications from the Strategic National Stockpile. Lessons learned from this collaboration should be useful to other public health and business leaders interested in developing similar partnerships. Methods The authors conducted a case study based on interviews with 26 government, business, and academic participants in this collaboration. Results The partnership is based on shared objectives to protect public health and assure community cohesion in the wake of a large-scale disaster, on the recognition that acting alone neither public health agencies nor businesses are likely to manage such a response successfully, and on the realization that business and community continuity are intertwined. The partnership has required participants to acknowledge and address multiple challenges, including differences in business and government cultures and operational constraints, such as concerns about the confidentiality of shared information, liability, and the limits of volunteerism. The partnership has been facilitated by a business model based on defining shared objectives, identifying mutual needs and vulnerabilities, developing carefully-defined projects, and evaluating proposed project methods through exercise testing. Through collaborative engagement in progressively more complex projects, increasing trust and understanding have enabled the partners to make significant progress in addressing these challenges. Conclusion As a result of this partnership, essential relationships have been established, substantial private resources and

  8. Business and public health collaboration for emergency preparedness in Georgia: a case study

    Science.gov (United States)

    Buehler, James W; Whitney, Ellen A; Berkelman, Ruth L

    2006-01-01

    Background Governments may be overwhelmed by a large-scale public health emergency, such as a massive bioterrorist attack or natural disaster, requiring collaboration with businesses and other community partners to respond effectively. In Georgia, public health officials and members of the Business Executives for National Security have successfully collaborated to develop and test procedures for dispensing medications from the Strategic National Stockpile. Lessons learned from this collaboration should be useful to other public health and business leaders interested in developing similar partnerships. Methods The authors conducted a case study based on interviews with 26 government, business, and academic participants in this collaboration. Results The partnership is based on shared objectives to protect public health and assure community cohesion in the wake of a large-scale disaster, on the recognition that acting alone neither public health agencies nor businesses are likely to manage such a response successfully, and on the realization that business and community continuity are intertwined. The partnership has required participants to acknowledge and address multiple challenges, including differences in business and government cultures and operational constraints, such as concerns about the confidentiality of shared information, liability, and the limits of volunteerism. The partnership has been facilitated by a business model based on defining shared objectives, identifying mutual needs and vulnerabilities, developing carefully-defined projects, and evaluating proposed project methods through exercise testing. Through collaborative engagement in progressively more complex projects, increasing trust and understanding have enabled the partners to make significant progress in addressing these challenges. Conclusion As a result of this partnership, essential relationships have been established, substantial private resources and capabilities have been engaged in

  9. Emergency Preparedness and Disaster Response: There's An App for That.

    Science.gov (United States)

    Bachmann, Daniel J; Jamison, Nathan K; Martin, Andrew; Delgado, Jose; Kman, Nicholas E

    2015-10-01

    Smartphone applications (or apps) are becoming increasingly popular with emergency responders and health care providers, as well as the public as a whole. There are thousands of medical apps available for Smartphones and tablet computers, with more added each day. These include apps to view textbooks, guidelines, medication databases, medical calculators, and radiology images. Hypothesis/Problem With an ever expanding catalog of apps that relate to disaster medicine, it is hard for both the lay public and responders to know where to turn for effective Smartphone apps. A systematic review of these apps was conducted. A search of the Apple iTunes store (Version 12; Apple Inc.; Cupertino, California USA) was performed using the following terms obtained from the PubMed Medical Subject Headings Database: Emergency Preparedness, Emergency Responders, Disaster, Disaster Planning, Disaster Medicine, Bioterrorism, Chemical Terrorism, Hazardous Materials (HazMat), and the Federal Emergency Management Agency (FEMA). After excluding any unrelated apps, a working list of apps was formed and categorized based on topics. Apps were grouped based on applicability to responders, the lay public, or regional preparedness, and were then ranked based on iTunes user reviews, value, relevance to audience, and user interface. This search revealed 683 applications and was narrowed to 219 based on relevance to the field. After grouping the apps as described above, and subsequently ranking them, the highest quality apps were determined from each group. The Community Emergency Response Teams and FEMA had the best apps for National Disaster Medical System responders. The Centers for Disease Control and Prevention (CDC) had high-quality apps for emergency responders in a variety of fields. The National Library of Medicine's Wireless Information System for Emergency Responders (WISER) app was an excellent app for HazMat responders. The American Red Cross had the most useful apps for natural

  10. REP Executive Education focuses on Midwest plant off-site emergency preparedness

    OpenAIRE

    Center for Homeland Defense and Security

    2015-01-01

    Center for Homeland Defense and Security News and Stories, PRESS RELEASES The Center for Homeland Defense and Security burgeoning Radiological Emergency Preparedness (REP) Executive Education Program convened June 8-12 with a special focus on emergency preparedness policy and strategic issues for...

  11. 75 FR 18214 - Board of Scientific Counselors, Coordinating Office for Terrorism Preparedness and Emergency...

    Science.gov (United States)

    2010-04-09

    ... Scientific Counselors, Coordinating Office for Terrorism Preparedness and Emergency Response (BSC, COTPER) \\1\\ \\1\\ The Coordinating Office for Terrorism Preparedness and Emergency Response has been renamed and is..., NE., Global Communications Center, Building 19, Auditorium B3, Atlanta, Georgia 30333. This meeting...

  12. Assessment of Emergency Preparedness of Households in Israel for War--Current Status.

    Science.gov (United States)

    Bodas, Moran; Siman-Tov, Maya; Kreitler, Shulamith; Peleg, Kobi

    2015-08-01

    In recent decades, many efforts have been made, both globally and locally, to enhance household preparedness for emergencies. In the State of Israel in particular, substantial investment has been made throughout the years in preparing the population for one of the major threats to the civilian population--a rapidly deteriorating regional conflict that involves high-trajectory weapons (ie, rocket and missile fire) launched at the home front. The purpose of this study was to examine the current preparedness level of the Israeli public for this threat and determine the correlates of such preparedness with known factors. A telephone-based, random sampling of 503 households representative of the Israeli population was carried out during October 2013. The questionnaire examined the level of household preparedness as well as attitudes towards threat perception, responsibility, willingness to search for information, and sense of preparedness. Statistical analysis was performed to determine the level of preparedness in the general population and to find correlates to this preparedness in attitudes and demographic variables. More than half of the sample reported complying with 50% or fewer of the actions recommended by the Israeli Home Front Command. Having an increased sense of preparedness and willingness to search for related information were positively correlated with actual household preparedness, and the latter was also found to be the most predictive variable of household preparedness. Although the overall household preparedness reported is mediocre, the level of preparedness found in this study suggests better preparedness of the population in Israel for its primary threat. The findings suggest that in order to promote preparedness of the Israeli public for war, emphasis should be put on increasing the public demand for information and encouraging people to evaluate their sense of preparedness.

  13. Nuclear emergency preparedness in the Nordic and Baltic Sea countries

    Energy Technology Data Exchange (ETDEWEB)

    Jaworska, A. [Norwegian Radiation Protection Authority (Norway)

    2002-07-01

    Radiation emergency preparedness systems must be able to deal with the threats posed to each country and the region as a whole. The threats from nuclear accidents differ in the various countries of the region. The most serious nuclear threats are those with cross-border implications and are generally assumed to be due to the presence of nuclear reactors of various kinds. Some countries in the region, Finland, Germany, Lithuania, the Russian Federation and Sweden, have nuclear power plants, and several countries in the region possess smaller research reactors. Other nuclear threats arise from nuclear powered naval vessels or submarines, and from nuclear powered satellites. Production, transportation, use, and disposal of radioactive materials constitute potential local nuclear hazards. Finally, terrorist use of radioactive material poses a nuclear threat to all countries. (au)

  14. Southern state radiological emergency preparedness and response agencies

    International Nuclear Information System (INIS)

    1988-11-01

    This Report provides information on the state agencies assigned to radioactive materials transportation incidents in 16 Southern States Energy Board member states. For each, the report lists the agencies with primary authority for preparedness and response, their responsibilities and personnel within the agencies who can offer additional information on their radioactive materials transportation programs. The report also lists each state's emergency team members and its laboratory and analytical capabilities. Finally, the governor's designee for receiving advance notification of high-level radioactive materials and spent fuel shipments under 10 CFR Parts 71 and 73 of the US Nuclear Regulatory Commission's regulations is listed for each state. Part 71 requires prenotification for large quantity radioactive waste shipments. Part 73 addresses prenotification for spent nuclear reactor fuel shipments

  15. Nuclear emergency preparedness in the Nordic and Baltic Sea countries

    International Nuclear Information System (INIS)

    Jaworska, A.

    2002-01-01

    Radiation emergency preparedness systems must be able to deal with the threats posed to each country and the region as a whole. The threats from nuclear accidents differ in the various countries of the region. The most serious nuclear threats are those with cross-border implications and are generally assumed to be due to the presence of nuclear reactors of various kinds. Some countries in the region, Finland, Germany, Lithuania, the Russian Federation and Sweden, have nuclear power plants, and several countries in the region possess smaller research reactors. Other nuclear threats arise from nuclear powered naval vessels or submarines, and from nuclear powered satellites. Production, transportation, use, and disposal of radioactive materials constitute potential local nuclear hazards. Finally, terrorist use of radioactive material poses a nuclear threat to all countries. (au)

  16. Improving emergency preparedness and crisis management capabilities in transportation : year 2.

    Science.gov (United States)

    2013-03-01

    While disaster preparedness and emergency management have had a high public : profile over the past decade, Hurricane Katrina revealed serious weaknesses in the : United States emergency response capabilities. There is thus much left to do : befor...

  17. Terrorism and emergency preparedness in state and territorial public health departments--United States, 2004.

    Science.gov (United States)

    2005-05-13

    After the events of September 11, 2001, federal funding for state public health preparedness programs increased from $67 million in fiscal year (FY) 2001 to approximately $1 billion in FY 2002. These funds were intended to support preparedness for and response to terrorism, infectious disease outbreaks, and other public health threats and emergencies. The Council of State and Territorial Epidemiologists (CSTE) assessed the impact of funding on epidemiologic capacity, including terrorism preparedness and response, in state health departments in November 2001 and again in May 2004, after distribution of an additional $1 billion in FY 2003. This report describes the results of those assessments, which indicated that increased funding for terrorism preparedness and emergency response has rapidly increased the number of epidemiologists and increased capacity for preparedness at the state level. However, despite the increase in epidemiologists, state public health officials estimate that 192 additional epidemiologists, an increase of 45.3%, are needed nationwide to fully staff terrorism preparedness programs.

  18. Stockpiling Ventilators for Influenza Pandemics.

    Science.gov (United States)

    Huang, Hsin-Chan; Araz, Ozgur M; Morton, David P; Johnson, Gregory P; Damien, Paul; Clements, Bruce; Meyers, Lauren Ancel

    2017-06-01

    In preparing for influenza pandemics, public health agencies stockpile critical medical resources. Determining appropriate quantities and locations for such resources can be challenging, given the considerable uncertainty in the timing and severity of future pandemics. We introduce a method for optimizing stockpiles of mechanical ventilators, which are critical for treating hospitalized influenza patients in respiratory failure. As a case study, we consider the US state of Texas during mild, moderate, and severe pandemics. Optimal allocations prioritize local over central storage, even though the latter can be deployed adaptively, on the basis of real-time needs. This prioritization stems from high geographic correlations and the slightly lower treatment success assumed for centrally stockpiled ventilators. We developed our model and analysis in collaboration with academic researchers and a state public health agency and incorporated it into a Web-based decision-support tool for pandemic preparedness and response.

  19. Emergency preparedness and response: compensating victims of a nuclear accident

    International Nuclear Information System (INIS)

    Schwartz, Julia

    2004-01-01

    The 1986 tragedy at the Chernobyl Nuclear Power Plant in Ukraine motivated the entire international nuclear community to ensure that countries would, in the future, be well prepared to manage the physical, psychological and financial consequences of a serious nuclear accident. Since that event, numerous nuclear emergency preparedness and post-emergency management programmes have been established at national and international levels to ensure that appropriate mechanisms will respond to the threat, and the aftermath, of a nuclear accident. The INEX 2000 Workshop on the Indemnification of Nuclear Damage, jointly organised by the OECD/Nuclear Energy Agency and the French Government, was the first ever international programme to address the manner in which victims of a nuclear accident with trans-boundary consequences would be compensated for damage suffered before, during and after the accident. The Workshop results revealed striking differences in the compensation principles and practices implemented in the 30 participating countries, in the co-ordination measures between different public authorities within an affected state, and in the co-operative procedures between the accident state and its neighbours. All participants agreed on the need for improvement in these areas, particularly for maintaining public confidence in governments' ability to properly manage nuclear emergencies

  20. Emergency preparedness in Finland with special emphasis on internal contamination

    International Nuclear Information System (INIS)

    Rahola, Tua; Suomela, Matti

    1999-01-01

    Rapid development in the field of emergency preparedness has taken place during recent years. The very first measures in a possible emergency situation have been trained nationally and internationally. Less attention has been paid to measures in a later phase. To be able to react fast enough in an emergency situation it is essential to have well documented plans, written instructions and suitable measurement equipment ready for use. In the first phase of a nuclear accident iodine is of primary concern. The Finnish radiation protection authority - STUK has already some instruments calibrated for thyroidea measurements in field conditions outside the laboratory. In a Nordic project experts on internal contamination measurements will be trained to make rapid measurements with relatively simple instruments on large groups of people. The general public knows that it is possible to do direct measurements on people and will not accept prognoses based only on external radiation and foodstuff measurements. In the future it will be necessary to do also direct measurements on people for reassurance of the general public even if such measurement would not be necessary from a strict radiation protection point of view. (au)

  1. Radiological and nuclear emergency preparedness and response. How well are we prepared?

    International Nuclear Information System (INIS)

    Geick, Gunther H.G.; Herrmann, Andre R.; Koch, Doris; Meisenberg, Oliver; Rauber, Dominique; Stuerm, Rolf P.; Weiss, Wolfgang; Miska, Horst; Schoenhacker, Stefan

    2011-01-01

    The contributions to this topic are dealing, in a broad overview, with important aspects of Nuclear Emergency Preparedness and Response, like the influence of the new ICRP recommendations number 103 and number 109 on emergency preparedness and on planning for response, possible problems in installing and operating emergency care centres, experience from exercises as well as the training of response personnel in Austria and Germany. Finally, measures in emergency preparedness with regard to a dirty bomb attack are reported by means of an INEX-4-exercise in Switzerland. (orig.)

  2. Current status on educational program for radiation emergency medical preparedness in Korea

    International Nuclear Information System (INIS)

    Kim, E. S.; Kong, H. J.; Noh, J. H.; Kim, C. S.

    2002-01-01

    There are several educational programs in worldwide for the user of radiation, radioisotopes, and nuclear power plant. REAC/TS is one of the most famous centers for radiation emergency personnel. REMPAN, one of the World Health Organization is also to promote the medical preparedness for radiation accident and provide advice and assistance in the case of radiation accident and radiological emergency. There are a variety of educational programs of radiation emergency, but not many programs of medical preparedness in Korea. Therefore, it is introduced here Korean current environment and future direction of educational programs for the radiation emergency medical preparedness

  3. Policy statement--emergency information forms and emergency preparedness for children with special health care needs.

    Science.gov (United States)

    2010-04-01

    Children with chronic medical conditions rely on complex management plans for problems that cause them to be at increased risk for suboptimal outcomes in emergency situations. The emergency information form (EIF) is a medical summary that describes medical condition(s), medications, and special health care needs to inform health care providers of a child's special health conditions and needs so that optimal emergency medical care can be provided. This statement describes updates to EIFs, including computerization of the EIF, expanding the potential benefits of the EIF, quality-improvement programs using the EIF, the EIF as a central repository, and facilitating emergency preparedness in disaster management and drills by using the EIF.

  4. Institutional reforms of nuclear emergency preparedness in Japan and its challenges. Case studies on stakeholder involvement in establishing nuclear emergency preparedness in France and its implications for Japan

    International Nuclear Information System (INIS)

    Sugawara, Shin-etsu

    2013-01-01

    Based upon the experiences with the accident of Fukushima Daiichi Nuclear Power Station, Japan is now making a comprehensive review of nuclear emergency preparedness. The Nuclear Regulation Authority of Japan has changed drastically its basic concept of nuclear emergency arrangements from their dependence on the prediction methods to advance planning-oriented arrangements. In order to implement such changes in an effective enough manner, this report examines how to improve stakeholder involvement focusing on the French cases, where the Local Information Commissions (CLI) plays a critical role, and thereby derives concrete lessons for Japan. Case studies on CLI's involvement in French nuclear emergency preparedness revealed the following implications for Japan; 1. Improving continuously the disaster prevention plans of local governments and of nuclear utilities thorough recursive cycles of disaster-preparedness drill and its evaluation for the benefits of local inhabitants, 2. Setting appropriate ranges wherein local stakeholders involve constantly in establishing nuclear emergency preparedness without alienating completely other stakeholders, 3. Utilizing the prediction systems not as a means to support decision-making in emergency situations but as a tool for facilitating stakeholder involvement in the phase of advance planning, and 4. Integrating nuclear emergency preparedness into other disaster preventions for reducing complex and unrecognized risks. (author)

  5. 78 FR 79081 - Medicare and Medicaid Programs; Emergency Preparedness Requirements for Medicare and Medicaid...

    Science.gov (United States)

    2013-12-27

    ... Conditions for Coverage CHAP Community Health Accreditation Program CMHC Community Mental Health Center COI... Pathology Services (Sec. 485.727) N. Emergency Preparedness Regulations for Community Mental Health Centers... Preparedness for Community Mental Health Centers (CMHCs)--Training and Testing (Sec. 485.920(d)) R. Conditions...

  6. Integrating authorities and disciplines into the preparedness-planning process: a study of mental health, public health, and emergency management.

    Science.gov (United States)

    Robertson, Madeline; Pfefferbaum, Betty; Codispoti, Catherine R; Montgomery, Juliann M

    2007-01-01

    The process of integrating all necessary authorities and disciplines into an organized preparedness plan is complex, and the inclusion of disaster mental health poses specific challenges. The goals of this project were (1) to identify whether state mental health preparedness was included in state public health and emergency management preparedness plans, (2) to document barriers to entry and strategies reportedly used by state authorities in efforts to incorporate reasonable mental health preparedness into existing public health and emergency management preparedness planning, (3) to employ a theory for organizational change to organize and synthesize this information, and (4) to stimulate further discussion and research supporting coordinated preparedness efforts at the state level, particularly those inclusive of mental health. To accomplish these goals we (1) counted the number of state public health preparedness and emergency management plans that either included, mentioned, or omitted a mental health preparedness plan; (2) interviewed key officials from nine representative states for their reports on strategies used in seeking greater inclusion of mental health preparedness in public health and emergency management preparedness planning; and (3) synthesized these results to contribute to the national dialogue on coordinating disaster preparedness, particularly with respect to mental health preparedness. We found that 15 out of 29 publicly available public health preparedness plans (52 percent) included mental health preparedness, and eight of 43 publicly available emergency management plans (18 percent) incorporated mental health. Interviewees reported numerous barriers and strategies, which we cataloged according to a well-accepted eight-step plan for transforming organizations.

  7. Health Departments’ Engagement in Emergency Preparedness Activities: The Influence of Health Informatics Capacity

    OpenAIRE

    Gulzar H. Shah; Bobbie Newell; Ruth E. Whitworth

    2016-01-01

    Background: Local health departments (LHDs) operate in a complex and dynamic public health landscape, with changing demands on their emergency response capacities. Informatics capacities might play an instrumental role in aiding LHDs emergency preparedness. This study aimed to explore the extent to which LHDs’ informatics capacities are associated with their activity level in emergency preparedness and to identify which health informatics capacities are associated with improved em...

  8. Scenario guidance handbook for emergency-preparedness exercises at nuclear facilities

    International Nuclear Information System (INIS)

    Laughlin, G.J.; Martin, G.F.; Desrosiers, A.E.

    1983-01-01

    As part of the Emergency Preparedness Implementation Appraisal Program conducted by the Nuclear Regulatory Commission (NRC) with the technical assistance of the Pacific Northwest Laboratory (PNL), emergency preparedness exercises are observed on an annual basis at all licensed reactor facilities. One of the significant findings to arise from these observations was that a large number of the commonly observed problems originated in the design of the scenarios used as a basis for each exercise. In an effort to help eliminate some of these problems a scenario guidance handbook has been generated by PNL for the NRC to assist nuclear power plant licensees in developing scenarios for emergency preparedness exercises

  9. Generic procedures for medical response during a nuclear or radiological emergency. Emergency preparedness and response

    International Nuclear Information System (INIS)

    2005-04-01

    The aim of this publication is to serve as a practical resource for planning the medical response to a nuclear or radiological emergency. It fulfils in part functions assigned to the IAEA under Article 5.a(ii) of the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), namely, to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. Effective medical response is a necessary component of the overall response to nuclear or radiological (radiation) emergencies. In general, the medical response may represent a difficult challenge for the authorities due to the complexity of the situation, often requiring specialized expertise, and special organizational arrangements and materials. To be effective, adequate planning and preparedness are needed. This manual, if implemented, should help to contribute to coherent international response. The manual provides the practical tools and generic procedures for use by emergency medical personnel during an emergency situation. It also provides guidance to be used at the stage of preparedness for development of medical response capabilities. The manual also addresses mass casualty emergencies resulting from malicious acts involving radioactive material. This part was supported by the Nuclear Security Fund. The manual was developed based on a number of assumptions about national and local capabilities. Therefore, it must be reviewed and revised as part of the planning process to match the potential accidents, threats, local conditions and other unique characteristics of the facility where it may be used

  10. United States and Israeli Homeland Security: A Comparative Analysis of Emergency Preparedness Efforts

    National Research Council Canada - National Science Library

    Pockett, Consuella B

    2005-01-01

    This paper will provide a comparative analysis of the United States (U.S.) Department of Homeland Security's Emergency Preparedness and Response directorate and the Israel Defense Forces Home Front Command...

  11. Stakeholder involvement in development and implementation of appropriate emergency preparedness routines in Slovakia

    International Nuclear Information System (INIS)

    Duranova, T.

    2009-01-01

    The presentation presents the process of stakeholder involvement in development and implementation of appropriate emergency preparedness routines in Slovakia in last five years. The presentation gives detailed information on used practices and real process taken place in Slovakia

  12. An emergency preparedness system the french project ecran

    International Nuclear Information System (INIS)

    Biscay, P.; Michelin, J.M.; Moussafir, J.

    1990-01-01

    Electricite de France (E.D.F) has developed the prototype of a new emergency preparedness system. The prototype system, called E.C.R.A.N. (Estimation des Consequences Radiologiques d'un Accident Nucleaire), includes: (1) - A local computerized system which collects meteorological data, stack exit data, and radiological data on the plant site, and receives the meteorological forecast data. All the data are gathered in a database with includes topography and digitized maps of the area. This dedicated workstation provides real-time computation of actual or forecast consequences up to 10 Km within 10 minutes. (2) - A central system, based on E.D.F. large scientific mainframe computers, where the heavier meteorological computations required for regional scale assessment (several hundreds of km) are carried out. At this level, we use the HERMES mesoscale model, nested on larger scale forecasts. This central system is connected by specialized lines to the French Meteorological Office's computing center, which delivers twice a day an operational 48 hours large scale forecast (grid size about 35 km). (3) - A communication network (E.D.F. computer network) which allows fast and reliable access to data and results for every group involved in the decision process. A prototype for the local system, which is a UNIX workstation, has been operating on the Cruas power plant (Rhone Valley in the South-East of France) since September 1987. A portable software package called ADSO was developed to integrate the numerical models in real time, and to build site-independent, machine-independent and sensor-independent databases. This paper describes the general structure of this system, the models it uses, its present state of development, the possible improvements and its future use in EDF operational emergency organization

  13. Ebola: Emergency preparedness and perceived response of Malaysian health care providers.

    Science.gov (United States)

    Rajiah, Kingston; Maharajan, Mari Kannan; Binti Samsudin, Sarah Zakiah; Tan, Choo Lin; Tan Yen Pei, Adeline; Wong San Ying, Audrey

    2016-12-01

    We studied the emergency preparedness and perceived response for Ebola virus disease among various health care providers in Malaysia using a self-report questionnaire. Most of the health care providers felt that they were able to respond to Ebola virus disease and were aware of the level of preparedness needed during emergency. Copyright © 2016 Association for Professionals in Infection Control and Epidemiology, Inc. Published by Elsevier Inc. All rights reserved.

  14. Nuclear accident/radiological emergency assistance plan. NAREAP - edition 2000. Emergency preparedness and response

    International Nuclear Information System (INIS)

    2000-01-01

    The purpose of the Nuclear Accident/Radiological Emergency Assistance Plan (NAREAP) is to describe the framework for systematic, integrated, co-ordinated, and effective preparedness and response for a nuclear accident or radiological emergency involving facilities or practices that may give rise to a threat to health, the environment or property. The purpose of the NAREAP is: to define the emergency response objectives of the Agency's staff in a nuclear accident or a radiological emergency; to assign responsibilities for performing the tasks and authorities for making the decisions that comprise the Agency staff's response to a nuclear accident or radiological emergency; to guide the Agency managers who must ensure that all necessary tasks are given the necessary support in discharging the Agency staff responsibilities and fulfilling its obligations in response to an emergency; to ensure that the development and maintenance of detailed and coherent response procedures are well founded; to act as a point of reference for individual Agency staff members on their responsibilities (as an individual or a team member) throughout a response; to identify interrelationships with other international intergovernmental Organizations; and to serve as a training aid to maintain readiness of personnel. The NAREAP refers to the arrangements of the International Atomic Energy Agency and of the United Nations Security and Safety Section at the Vienna International Centre (UNSSS-VIC) that may be necessary for the IAEA to respond to a nuclear accident or radiological emergency, as defined in the Early Notification and Assistance Conventions. It covers response arrangements for any situation that may have actual, potential or perceived radiological consequences and that could require a response from the IAEA, as well as the arrangements for developing, maintaining and exercising preparedness. The implementing procedures themselves are not included in the NAREAP, but they are required

  15. Employee Perceptions of Their Organization's Level of Emergency Preparedness Following a Brief Workplace Emergency Planning Educational Presentation

    Directory of Open Access Journals (Sweden)

    Lauren A. Renschler

    2016-06-01

    Full Text Available A brief emergency planning educational presentation was taught during work hours to a convenience sample of employees of various workplaces in Northern Missouri, USA. Participants were familiarized with details about how an emergency plan is prepared by management and implemented by management-employee crisis management teams – focusing on both employee and management roles. They then applied the presentation information to assess their own organization’s emergency preparedness level. Participants possessed significantly (p < 0.05 higher perceptions of their organization’s level of emergency preparedness than non-participants. It is recommended that an assessment of organizational preparedness level supplement emergency planning educational presentations in order to immediately apply the material covered and encourage employees to become more involved in their organization’s emergency planning and response. Educational strategies that involve management-employee collaboration in activities tailored to each workplace’s operations and risk level for emergencies should be implemented.

  16. Manual for first responders to a radiological emergency. Emergency preparedness and response. Publication date: June 2007

    International Nuclear Information System (INIS)

    2007-08-01

    Under Article 5.a(ii) of the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. As stated in IAEA Safety Standards Series No. GS-R-2 'Preparedness and Response for a Nuclear or Radiological Emergency', which establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, 'first responders shall take all practicable and appropriate actions to minimize the consequences of a nuclear or radiological emergency'. The IAEA General Conference, in resolution GC(49)/RES/9, continues to encourage Member States 'to adopt the relevant Agency standards, procedures and practical tools' and underlines 'the need for first responders to have appropriate training for dealing with ionizing radiation during nuclear and radiological emergencies'. This publication is intended to assist in meeting these requirements and to fulfil Article 5 of the Assistance Convention. Its aim is to provide practical guidance for those who will respond during the first few hours to a radiological emergency (referred to here as 'first responders') and for national officials who would support this early response. It provides guidance in the form of action guides, instructions, and supporting data that can be easily applied by a State to build a basic capability to respond to a radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This report, published as part of the IAEA Emergency Preparedness and Response Series, replaces and builds on IAEA-TECDOC-1162 in the area of early response and first responders' actions. It takes account of the

  17. Communication with the Public in a Nuclear or Radiological Emergency. Emergency Preparedness and Response (Chinese Edition)

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of this publication is to provide practical guidance for public information officers on the preparation for and response to a nuclear or radiological emergency, and to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. SF-1, Fundamental Safety Principles, and in IAEA Safety Standards No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. IAEA Safety Standards Series No. GS-R-2 establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, and specifies that 'All practicable steps shall be taken to provide the public with useful, timely, truthful, consistent and appropriate information throughout a nuclear or radiological emergency' in the response phase. It also requires 'responding to incorrect information and rumours; and responding to requests for information from the public and from the news and information media'. This publication provides guidance in the form of action guides and information sheets that can be easily applied by a State to build a basic capability to respond to a nuclear or radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This publication is published as part of the IAEA's Emergency Preparedness and Response series and complements the Manual for First Responders to a Radiological Emergency in the parts related to the tasks of public information officers. It takes

  18. Communication with the Public in a Nuclear or Radiological Emergency. Emergency Preparedness and Response (Chinese Edition)

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-09-01

    The aim of this publication is to provide practical guidance for public information officers on the preparation for and response to a nuclear or radiological emergency, and to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. SF-1, Fundamental Safety Principles, and in IAEA Safety Standards No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. IAEA Safety Standards Series No. GS-R-2 establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, and specifies that 'All practicable steps shall be taken to provide the public with useful, timely, truthful, consistent and appropriate information throughout a nuclear or radiological emergency' in the response phase. It also requires 'responding to incorrect information and rumours; and responding to requests for information from the public and from the news and information media'. This publication provides guidance in the form of action guides and information sheets that can be easily applied by a State to build a basic capability to respond to a nuclear or radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This publication is published as part of the IAEA's Emergency Preparedness and Response series and complements the Manual for First Responders to a Radiological Emergency in the parts related to the tasks of public information officers. It takes

  19. Manual for first responders to a radiological emergency. Emergency preparedness and response. Publication date: October 2006

    International Nuclear Information System (INIS)

    2006-10-01

    Under Article 5.a(ii) of the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. As stated in IAEA Safety Standards Series No. GS-R-2 'Preparedness and Response for a Nuclear or Radiological Emergency', which establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, 'first responders shall take all practicable and appropriate actions to minimize the consequences of a nuclear or radiological emergency'. The IAEA General Conference, in resolution GC(49)/RES/9, continues to encourage Member States 'to adopt the relevant Agency standards, procedures and practical tools' and underlines 'the need for first responders to have appropriate training for dealing with ionizing radiation during nuclear and radiological emergencies'. This publication is intended to assist in meeting these requirements and to fulfil Article 5 of the Assistance Convention. Its aim is to provide practical guidance for those who will respond during the first few hours to a radiological emergency (referred to here as 'first responders') and for national officials who would support this early response. It provides guidance in the form of action guides, instructions, and supporting data that can be easily applied by a State to build a basic capability to respond to a radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This report, published as part of the IAEA Emergency Preparedness and Response Series, replaces and builds on IAEA-TECDOC-1162 in the area of early response and first responders' actions. It takes account of the

  20. Communication with the Public in a Nuclear or Radiological Emergency. Emergency Preparedness and Response (Arabic Edition)

    International Nuclear Information System (INIS)

    2014-01-01

    The aim of this publication is to provide practical guidance for public information officers on the preparation for and response to a nuclear or radiological emergency, and to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. SF-1, Fundamental Safety Principles, and in IAEA Safety Standards No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. IAEA Safety Standards Series No. GS-R-2 establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, and specifies that 'All practicable steps shall be taken to provide the public with useful, timely, truthful, consistent and appropriate information throughout a nuclear or radiological emergency' in the response phase. It also requires 'responding to incorrect information and rumours; and responding to requests for information from the public and from the news and information media'. This publication provides guidance in the form of action guides and information sheets that can be easily applied by a State to build a basic capability to respond to a nuclear or radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This publication is published as part of the IAEA's Emergency Preparedness and Response series and complements the Manual for First Responders to a Radiological Emergency in the parts related to the tasks of public information officers. It takes

  1. Manual for first responders to a radiological emergency. Emergency preparedness and response

    International Nuclear Information System (INIS)

    2008-01-01

    Under Article 5.a(ii) of the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. As stated in IAEA Safety Standards Series No. GS-R-2 'Preparedness and Response for a Nuclear or Radiological Emergency', which establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, 'first responders shall take all practicable and appropriate actions to minimize the consequences of a nuclear or radiological emergency'. The IAEA General Conference, in resolution GC(49)/RES/9, continues to encourage Member States 'to adopt the relevant Agency standards, procedures and practical tools' and underlines 'the need for first responders to have appropriate training for dealing with ionizing radiation during nuclear and radiological emergencies'. This publication is intended to assist in meeting these requirements and to fulfil Article 5 of the Assistance Convention. Its aim is to provide practical guidance for those who will respond during the first few hours to a radiological emergency (referred to here as 'first responders') and for national officials who would support this early response. It provides guidance in the form of action guides, instructions, and supporting data that can be easily applied by a State to build a basic capability to respond to a radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This report, published as part of the IAEA Emergency Preparedness and Response Series, replaces and builds on IAEA-TECDOC-1162 in the area of early response and first responders' actions. It takes account of the

  2. Communication with the Public in a Nuclear or Radiological Emergency. Emergency Preparedness and Response (Russian Edition)

    International Nuclear Information System (INIS)

    2014-01-01

    The aim of this publication is to provide practical guidance for public information officers on the preparation for and response to a nuclear or radiological emergency, and to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. SF-1, Fundamental Safety Principles, and in IAEA Safety Standards No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. IAEA Safety Standards Series No. GS-R-2 establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, and specifies that 'All practicable steps shall be taken to provide the public with useful, timely, truthful, consistent and appropriate information throughout a nuclear or radiological emergency' in the response phase. It also requires 'responding to incorrect information and rumours; and responding to requests for information from the public and from the news and information media'. This publication provides guidance in the form of action guides and information sheets that can be easily applied by a State to build a basic capability to respond to a nuclear or radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This publication is published as part of the IAEA's Emergency Preparedness and Response series and complements the Manual for First Responders to a Radiological Emergency in the parts related to the tasks of public information officers. It takes

  3. Communication with the Public in a Nuclear or Radiological Emergency. Emergency Preparedness and Response (French Edition)

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of this publication is to provide practical guidance for public information officers on the preparation for and response to a nuclear or radiological emergency, and to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. SF-1, Fundamental Safety Principles, and in IAEA Safety Standards No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. IAEA Safety Standards Series No. GS-R-2 establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, and specifies that 'All practicable steps shall be taken to provide the public with useful, timely, truthful, consistent and appropriate information throughout a nuclear or radiological emergency' in the response phase. It also requires 'responding to incorrect information and rumours; and responding to requests for information from the public and from the news and information media'. This publication provides guidance in the form of action guides and information sheets that can be easily applied by a State to build a basic capability to respond to a nuclear or radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This publication is published as part of the IAEA's Emergency Preparedness and Response series and complements the Manual for First Responders to a Radiological Emergency in the parts related to the tasks of public information officers. It takes

  4. Communication with the Public in a Nuclear or Radiological Emergency. Emergency Preparedness and Response

    International Nuclear Information System (INIS)

    2012-05-01

    The aim of this publication is to provide practical guidance for public information officers on the preparation for and response to a nuclear or radiological emergency, and to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. SF-1, Fundamental Safety Principles, and in IAEA Safety Standards No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. IAEA Safety Standards Series No. GS-R-2 establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, and specifies that 'All practicable steps shall be taken to provide the public with useful, timely, truthful, consistent and appropriate information throughout a nuclear or radiological emergency' in the response phase. It also requires 'responding to incorrect information and rumours; and responding to requests for information from the public and from the news and information media'. This publication provides guidance in the form of action guides and information sheets that can be easily applied by a State to build a basic capability to respond to a nuclear or radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This publication is published as part of the IAEA's Emergency Preparedness and Response series and complements the Manual for First Responders to a Radiological Emergency in the parts related to the tasks of public information officers. It takes

  5. Communication with the Public in a Nuclear or Radiological Emergency. Emergency Preparedness and Response (Spanish Edition)

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of this publication is to provide practical guidance for public information officers on the preparation for and response to a nuclear or radiological emergency, and to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. SF-1, Fundamental Safety Principles, and in IAEA Safety Standards No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research relating to response to nuclear or radiological emergencies. IAEA Safety Standards Series No. GS-R-2 establishes the requirements for an adequate level of preparedness for and response to a nuclear or radiological emergency in any State, and specifies that 'All practicable steps shall be taken to provide the public with useful, timely, truthful, consistent and appropriate information throughout a nuclear or radiological emergency' in the response phase. It also requires 'responding to incorrect information and rumours; and responding to requests for information from the public and from the news and information media'. This publication provides guidance in the form of action guides and information sheets that can be easily applied by a State to build a basic capability to respond to a nuclear or radiological emergency. This guidance should be adapted to fit the user State's organizational arrangements, language, terminology, concept of operation and capabilities. This publication is published as part of the IAEA's Emergency Preparedness and Response series and complements the Manual for First Responders to a Radiological Emergency in the parts related to the tasks of public information officers. It takes

  6. "Skip the infection, get the injection": a case study in emergency preparedness education.

    Science.gov (United States)

    Adams, Lavonne M; Canclini, Sharon B; Frable, Pamela Jean

    2015-01-01

    The frequency of natural and manmade disasters along with increasing potential for public health emergencies emphasizes the need for emergency preparedness education. Because nurses are the largest group of health professionals to meet the needs of those affected by disasters and public health emergencies, schools of nursing need to prepare graduates who are knowledgeable about disaster and public health emergency management. The use of core competencies may be a means to ensure consistent application of best practices in disaster health care. The next step in competency development involves validation through evidence. Through documentation and dissemination of their experiences with emergency preparedness education, schools of nursing can provide supportive evidence to aid in competency development. The purpose of this paper is present a case study of an ongoing and evolving public health nursing education project consistent with disaster health care and emergency preparedness competencies. Copyright © 2014 Elsevier Ltd. All rights reserved.

  7. Emergency preparedness and its enhancement in Japan: From perspectives of infrastructure preparation, and exercise enhancement

    International Nuclear Information System (INIS)

    Funahashi, T.

    2010-01-01

    The organizational structure, procedures and infrastructures for the nuclear emergency response were established in Japan in the aftermath of the JCO accident and have been improved through exercises, drills and training. This paper overviews the infrastructure for the emergency response prepared by JNES and exercises implemented or supported by JNES for nuclear emergency preparedness. Approaches to feeding back exercise results are also addressed. (author)

  8. 'Nuclear emergency preparedness' for local residents. Support of on-site training of many kinds of places and people

    International Nuclear Information System (INIS)

    Kameda, Kazuhisa

    2005-01-01

    In order to support and ensure the nuclear emergency preparedness system and safety of residents in cities, towns and villages, NPO Nuclear Emergency Preparedness Support Center was established in May, 2003. 130 on-site training and education classes were held and above 2,000 participants attended to them for two years. Objects of the countermeasure of nuclear emergency preparedness in local area and residents, what is nuclear emergency for inhabitants, what is use of Table of International Nuclear Event Scale (INES)?, a use of INES, relation between INES level and the nuclear emergency preparedness system are discussed. (S.Y.)

  9. Regional long-term co-operation in the field of nuclear and radiation emergency preparedness

    International Nuclear Information System (INIS)

    Sladek, V.; Metke, E.; Janko, K.; Hohenberg, J. K.; Hofer, P.

    2004-01-01

    Emergency preparedness is generally covered by methodical and coordinative activities of the International Atomic Energy Agency (IAEA) in Member States of the IAEA and by the European Commission (EC) in EU Member and EU Accession Countries. However, the regional harmonisation of emergency arrangements is an important trend of emergency preparedness. The present paper gives a couple of illustrative examples for a regional co-operation in the field of emergency preparedness in Central Europe and an overview on international exercises in this region. The penultimate section contains an outlook on future activities regarding regional co-operation in Central Europe. The following topics have been suggested inter alia: the harmonisation of intervention criteria and countermeasures, co-ordination in the field of information of the public, comprehensive bi lateral and multilateral exercises, exchange of experts between the national nuclear emergency centres and inter-comparison calculations of the computer codes. (authors)

  10. An Assessment for Emergency Preparedness Plan in Hanul Nuclear Power Plant

    Energy Technology Data Exchange (ETDEWEB)

    Park, Sunghyun; Jae, Moosung [Hanyang University, Seoul (Korea, Republic of)

    2016-10-15

    The purpose of emergency preparedness aims to protect the accident and mitigate the radiation damage of public by setting emergency preparedness plan. In order to perform successfully the emergency preparedness plan, it should be optimized through a quantitative analysis. There are so many variables to analyze it quantitatively. It is mission to classify a realistic and suitable variables among these variables. The realistic variables is converted to the decision node in decision tree which is helpful to decide what evacuation or sheltering is effective to mitigate public damage. Base on it, it's idealistic method to analyze offsite consequences for each end points in the decision tree. In this study, we selected the reference plant which already has the emergency preparedness plan. Among the plan, we implemented offsite consequence analysis for a specific plan by using MACCS 2 code. In this study, target group is people who gathered in place 1 have sheltered and evacuated along the pathway. the offsite consequences analysis result of the group are 1.17·10-9 (early fatality), 1.77·10-7 (late fatality). Various cases need to be quantified for make an optimized decision. In the future, we will perform the verification and modification of decision node. After The assessment of emergency preparedness plan for Hanul nuclear power plant unit 5, 6 might be contribute to establish the optimized decision making of emergency prepared plan.

  11. Examining the importance of incorporating emergency preparedness and disaster training core competencies into allied health curricula.

    Science.gov (United States)

    Curtis, Tammy

    2015-01-01

    Preparation for responding to emergency events that does not warrant outside help beyond the local community resources or responding to disaster events that is beyond the capabilities of the local community both require first responders and healthcare professionals to have interdisciplinary skills needed to function as a team for saving lives. To date, there is no core emergency preparedness and disaster planning competencies that have been standardized at all levels across the various allied health curricula disciplines. To identify if emergency preparedness and disaster training content are currently being taught in allied health program courses, to identify possible gaps within allied health curricula, and to explore the perceptions of allied health college educators for implementing emergency preparedness and disaster training core competencies into their existing curricula, if not already included. A quantitative Internet-based survey was conducted in 2013. Convenient sample. Fifty-one allied health college educators completed the survey. Descriptive statistics indicated that the majority of allied health college instructors do not currently teach emergency preparedness and disaster training core competency content within their current allied health discipline; however, their perceived level of importance for inclusion of the competencies was high. The results of this study supported the need for developing and establishing a basic national set of standardized core emergency preparedness and disaster planning competencies at all levels across various allied health curricula disciplines to ensure victims receive the best patient care and have the best possible chance of survival.

  12. The preparedness of private dental offices and polyclinics for medical emergencies

    Science.gov (United States)

    Al-Sebaei, Maisa O.; Alkayyal, Moayyad A.; Alsulimani, Abdulelah H.; Alsulaimani, Othman S.; Habib, Weam T.

    2015-01-01

    Objectives: To assess preparedness for medical emergencies in private dental offices in Jeddah, Kingdom of Saudi Arabia (KSA). Methods: In this cross-sectional study, a survey was distributed to 70 dental offices and polyclinics in Jeddah, Saudi Arabia between October 2013 and January 2014. The questionnaire gathered information on the prevention of medical emergencies, the preparedness of the office personnel, and availability of emergency drugs and equipment. Results: For prevention, 92% (n=65) of the offices reported that they obtain a thorough medical history prior to treatment; however, only 11% (n=8) obtain vital signs for each visit. Using a preparedness percent score (0 to 100), the mean level of preparedness of the office personnel in all surveyed dental offices was 55.2±20. The availability of emergency drugs was 35±35, and equipment was 19±22. Conclusion: We found a deficiency in personnel training, availability of drugs, and emergency equipment in the surveyed dental clinics. More stringent rules and regulations for emergency preparedness must be reinforced to avoid disasters in these clinics. PMID:25737177

  13. Emergency preparedness exercise for biological dosimetry - BIOPEX (2008)

    Energy Technology Data Exchange (ETDEWEB)

    Lindholm, C.; Paile, W. (Radiation and Nuclear Safety Authority (STUK) (Finland)); Stricklin, D. (Swedish Defence Research Agency (FOI) (Sweden)); Jaworska, A. (Norwegian Radiation Protection Authority (NRPA) (Norway))

    2009-03-15

    As a continuation to the NKS-funded BIODOS project, the BIOPEX project has aimed at testing and validation of the newly established dose calibration curve for PCC rings, a specific chromosome aberration for use in biodosimetry in large casualty emergency preparedness. The testing of the PCC ring technique was performed by direct comparison to the conventional dicentric assay, both conducted with a triage approach that gives a crude dose estimate through analysis of a relatively small number of cells. Altogether 62 blood samples were analysed, each irradiated with an individual dose using gamma-rays, and representing casualties in a simulated radiation accident resulting in a broad spectrum of whole body and partial body doses, ranging from zero dose up to a lethal whole body dose of 13 Gy. The results indicated that both triage assays were capable of discerning non-exposed cases and that in the uniform irradiations, the dose estimates based on data from both assays were fairly consistent with the given dose. However, differences were observed depending on the dose level. At doses about 5 Gy and below, dicentric scoring resulted in more accurate whole-body dose estimates than PCC rings. At very high doses, PCC rings appeared to give more accurate dose estimates than dicentrics. The discrepancies are mainly caused by shortcomings in the respective dose calibration curves. In non-uniform irradiations, the PCC ring assay was slightly better in the approximation of the partial body dose than dicentrics, but neither assay enabled accurate estimation of either dose or fraction of cells irradiated. The irradiated fraction of cells for the casualties in this scenario was apparently too small (10-40%) to be distinguished with the triage approach applied in the current study. With respect to the technical aspects, scoring of the PCC rings is easier and therefore somewhat faster but may be more sensitive to quality aspects. In conclusion, the study demonstrated that the PCC

  14. Progress in Public Health Emergency Preparedness-United States, 2001-2016.

    Science.gov (United States)

    Murthy, Bhavini Patel; Molinari, Noelle-Angelique M; LeBlanc, Tanya T; Vagi, Sara J; Avchen, Rachel N

    2017-09-01

    To evaluate the Public Health Emergency Preparedness (PHEP) program's progress toward meeting public health preparedness capability standards in state, local, and territorial health departments. All 62 PHEP awardees completed the Centers for Disease Control and Prevention's self-administered PHEP Impact Assessment as part of program review measuring public health preparedness capability before September 11, 2001 (9/11), and in 2014. We collected additional self-reported capability self-assessments from 2016. We analyzed trends in congressional funding for public health preparedness from 2001 to 2016. Before 9/11, most PHEP awardees reported limited preparedness capabilities, but considerable progress was reported by 2016. The number of jurisdictions reporting established capability functions within the countermeasures and mitigation domain had the largest increase, almost 200%, by 2014. However, more than 20% of jurisdictions still reported underdeveloped coordination between the health system and public health agencies in 2016. Challenges and barriers to building PHEP capabilities included lack of trained personnel, plans, and sustained resources. Considerable progress in public health preparedness capability was observed from before 9/11 to 2016. Support, sustainment, and advancement of public health preparedness capability is critical to ensure a strong public health infrastructure.

  15. Preparedness and Response for a Nuclear or Radiological Emergency. General Safety Requirements (Chinese Edition)

    International Nuclear Information System (INIS)

    2016-01-01

    This publication, jointly sponsored by the FAO, IAEA, ICAO, ILO, IMO, INTERPOL, OECD/NEA, PAHO, CTBTO, UNEP, OCHA, WHO and WMO, is the new edition establishing the requirements for preparedness and response for a nuclear or radiological emergency which takes into account the latest experience and developments in the area. It supersedes the previous edition of the Safety Requirements for emergency preparedness and response, Safety Standards Series No. GS-R-2, which was published in 2002. This publication establishes the requirements for ensuring an adequate level of preparedness and response for a nuclear or radiological emergency, irrespective of its cause. These Safety Requirements are intended to be used by governments, emergency response organizations, other authorities at the local, regional and national levels, operating organizations and the regulatory body as well as by relevant international organizations at the international level.

  16. Preparedness and Response for a Nuclear or Radiological Emergency. General Safety Requirements (Arabic Edition)

    International Nuclear Information System (INIS)

    2016-01-01

    This publication, jointly sponsored by the FAO, IAEA, ICAO, ILO, IMO, INTERPOL, OECD/NEA, PAHO, CTBTO, UNEP, OCHA, WHO and WMO, is the new edition establishing the requirements for preparedness and response for a nuclear or radiological emergency which takes into account the latest experience and developments in the area. It supersedes the previous edition of the Safety Requirements for emergency preparedness and response, Safety Standards Series No. GS-R-2, which was published in 2002. This publication establishes the requirements for ensuring an adequate level of preparedness and response for a nuclear or radiological emergency, irrespective of its cause. These Safety Requirements are intended to be used by governments, emergency response organizations, other authorities at the local, regional and national levels, operating organizations and the regulatory body as well as by relevant international organizations at the international level.

  17. Preparedness and Response for a Nuclear or Radiological Emergency. General Safety Requirements (Russian Edition)

    International Nuclear Information System (INIS)

    2016-01-01

    This publication, jointly sponsored by the FAO, IAEA, ICAO, ILO, IMO, INTERPOL, OECD/NEA, PAHO, CTBTO, UNEP, OCHA, WHO and WMO, is the new edition establishing the requirements for preparedness and response for a nuclear or radiological emergency which takes into account the latest experience and developments in the area. It supersedes the previous edition of the Safety Requirements for emergency preparedness and response, Safety Standards Series No. GS-R-2, which was published in 2002. This publication establishes the requirements for ensuring an adequate level of preparedness and response for a nuclear or radiological emergency, irrespective of its cause. These Safety Requirements are intended to be used by governments, emergency response organizations, other authorities at the local, regional and national levels, operating organizations and the regulatory body as well as by relevant international organizations at the international level.

  18. Have Maryland local health departments effectively put in place the information technology relevant to emergency preparedness?

    Science.gov (United States)

    Nguh, Jonas

    2013-01-01

    Ever since the terrorist attacks of 9/11, the federal government has increased funding for emergency preparedness. However, the literature continues to document several areas of weaknesses in public health emergency management by local health departments (LHD). This lack of preparedness affects the entire public. The purpose of this study was to determine whether or not Maryland LHDs have effectively put in place the information technology (IT) that is relevant for emergency preparedness. Base Firm-wide IT Infrastructure Services and the Feeny/Willcocks Framework for Core IS Capabilities are the two conceptual frameworks used in this study. This qualitative study used the survey method and the data were analyzed through content analysis. The results revealed that utilization, practice, and performance of IT by Maryland LHDs are not efficient or effective. Recommendations included the development of "best practices," increased funding for IT infrastructure and the establishment of strategic management framework for IT initiatives. Implications for positive social change include the development of recommendations to enhance emergency preparedness practice, and advancement of knowledge so as to facilitate the functions, and duties of health departments in emergency preparedness operations.

  19. Emergency Preparedness--The Role of the School Nurse. Position Statement

    Science.gov (United States)

    Cagginello, Joan B.; Clark, Sandra; Compton, Linda; Davis, Catherine; Healy, Marilyn; Hoffmann, Susan; Tuck, Christine M.

    2011-01-01

    It is the position of the National Association of School Nurses (NASN) that school nurses provide leadership in all phases of emergency preparedness and management and are a vital part of the school team that develops emergency response procedures for the school setting, using an all-hazards approach. The school nurse is a vital school…

  20. Community's Emergency Preparedness for Flood Hazards in Dire-dawa Town, Ethiopia: A Qualitative Study.

    Science.gov (United States)

    Ejeta, Luche Tadesse

    2018-02-21

    Emergency preparedness at all levels (individuals and communities) is the corner stone of effective response to the increasing trends of global disasters due to man-made and natural hazards. It is determined by different factors, including (among others) past direct and indirect exposures to hazards. This study was carried out in Dire Dawa town, Ethiopia, which in the past experienced frequent flooding events, yet dearth of information exists about preparedness in the area.  The aim of the study was to assess the levels of emergency preparedness for flood hazards at households and communities levels. The study was conducted in a qualitative approach and was conducted in Dire Dawa town, which has been divided into nine administrative-units called Kebeles. Two focus group discussions were held in two of these units (Kebele-05 and 06), each focus group comprising twelve people (all above 18 years of age), and in total 24 people (13 females and 11 males) took part in the study. Open ended questions were used that could guide the discussions, and the discussions were audio-taped and transcribed. The results were translated from local language to English and qualitatively presented. The findings of focus group discussions showed that the local government in collaboration with the federal government built the flood protection dams in areas where flood hazards have been thought to be repeatedly wreaking havoc, specifically after the flood disaster of the year 2006. In addition, in Kebele-05, where one Non-Governmental Organization (NGO) was operating on flood hazards prevention and mitigation program, some non-structural emergency preparedness measures were undertaken by the communities. These non-structural measures (the major ones) entailed: establishment of committees recruited from residents and training them to raise awareness among communities on emergency preparedness; some residents made changes to their own houses (retrofitted) and put sandbags around their

  1. Nuclear regulatory policy concept on safety, security, safeguards and emergency preparedness (3S+EP)

    International Nuclear Information System (INIS)

    Ilyas, Zurias

    2009-01-01

    Regulatory Policy is formulated in regulations that stipulate the assurance of workers and public safety and environmental protection. Legislation and regulations on nuclear energy should consider nuclear safety, security and safeguards, as well as nuclear emergency preparedness (3S+EP) and liability for nuclear damage. Specific requirements stipulated in international conventions and agreements should also be taken into account. Regulatory Policy is formulated in regulations that stipulate the assurance of workers and public safety and environmental protection. Legislation and regulations on nuclear energy should consider nuclear safety, security and safeguards, as well as nuclear emergency preparedness (3S+EP) and liability for nuclear damage. Specific requirements stipulated in international conventions and agreements should also be taken into account. By undertaking proper regulatory oversight on Safety, Security and Emergency Preparedness (3S+EP) as an integrated and comprehensive system, safe and secure use of nuclear energy can be assured. Licence requirements and conditions should fulfil regulatory requirements pertaining to 3S+EP for nuclear installation as an integrated system. An effective emergency capacity that can be immediately mobilized is important. The capacity in protecting the personnel before, during and after the disaster should also be planned. Thus, proper emergency preparedness should be supported by adequate resources. The interface between safety, security, safeguards and emergency preparedness has to be set forth in nuclear regulations, such as regulatory requirements; 3S+EP; components, systems and structures of nuclear installations and human resources. Licensing regulations should stipulate, among others, DIQ, installations security system, safety analysis report, emergency preparedness requirements and necessary human resources that meet the 3S+EP requirements.

  2. Promoting public health legal preparedness for emergencies: review of current trends and their relevance in light of the Ebola crisis

    OpenAIRE

    Cohen, Odeya; Feder-Bubis, Paula; Bar-Dayan, Yaron; Adini, Bruria

    2015-01-01

    Background: Public health legal preparedness (PHLP) for emergencies is a core component of the health system response. However, the implementation of health legal preparedness differs between low- and middle-income countries (LMIC) and developed countries.Objective: This paper examines recent trends regarding public health legal preparedness for emergencies and discusses its role in the recent Ebola outbreak.Design: A rigorous literature review was conducted using eight electronic databases a...

  3. Nursing Home Self-assessment of Implementation of Emergency Preparedness Standards.

    Science.gov (United States)

    Lane, Sandi J; McGrady, Elizabeth

    2016-08-01

    Introduction Disasters often overwhelm a community's capacity to respond and recover, creating a gap between the needs of the community and the resources available to provide services. In the wake of multiple disasters affecting nursing homes in the last decade, increased focus has shifted to this vital component of the health care system. However, the long-term care sector has often fallen through the cracks in both planning and response. Problem Two recent reports (2006 and 2012) published by the US Department of Health and Human Services (DHHS), Office of Inspector General (OIG), elucidate the need for improvements in nursing homes' comprehensive emergency preparedness and response. The Center for Medicare and Medicaid Services (CMS) has developed an emergency preparedness checklist as a guidance tool and proposed emergency preparedness regulations. The purpose of this study was to evaluate the progress made in nursing home preparedness by determining the level of completion of the 70 tasks noted on the checklist. The study objectives were to: (1) determine the preparedness levels of nursing homes in North and South Carolina (USA), and (2) compare these findings with the 2012 OIG's report on nursing home preparedness to identify current gaps. A survey developed from the checklist of items was emailed to 418 North Carolina and 193 South Carolina nursing home administrators during 2014. One hundred seventeen were returned/"bounced back" as not received. Follow-up emails and phone calls were made to encourage participation. Sixty-three completed surveys and 32 partial surveys were received. Responses were compared to data obtained in a 2010 study to determine progress. Progress had been made in many of the overall planning and sheltering-in-place tasks, such as having contact information of local emergency managers as well as specifications for availability of potable water. Yet, gaps still persisted, especially in evacuation standards, interfacing with emergency

  4. Assessing Emergency Preparedness and Response Capacity Using Community Assessment for Public Health Emergency Response Methodology: Portsmouth, Virginia, 2013.

    Science.gov (United States)

    Kurkjian, Katie M; Winz, Michelle; Yang, Jun; Corvese, Kate; Colón, Ana; Levine, Seth J; Mullen, Jessica; Ruth, Donna; Anson-Dwamena, Rexford; Bayleyegn, Tesfaye; Chang, David S

    2016-04-01

    For the past decade, emergency preparedness campaigns have encouraged households to meet preparedness metrics, such as having a household evacuation plan and emergency supplies of food, water, and medication. To estimate current household preparedness levels and to enhance disaster response planning, the Virginia Department of Health with remote technical assistance from the Centers for Disease Control and Prevention conducted a community health assessment in 2013 in Portsmouth, Virginia. Using the Community Assessment for Public Health Emergency Response (CASPER) methodology with 2-stage cluster sampling, we randomly selected 210 households for in-person interviews. Households were questioned about emergency planning and supplies, information sources during emergencies, and chronic health conditions. Interview teams completed 180 interviews (86%). Interviews revealed that 70% of households had an emergency evacuation plan, 67% had a 3-day supply of water for each member, and 77% had a first aid kit. Most households (65%) reported that the television was the primary source of information during an emergency. Heart disease (54%) and obesity (40%) were the most frequently reported chronic conditions. The Virginia Department of Health identified important gaps in local household preparedness. Data from the assessment have been used to inform community health partners, enhance disaster response planning, set community health priorities, and influence Portsmouth's Community Health Improvement Plan.

  5. A national survey of terrorism preparedness training among pediatric, family practice, and emergency medicine programs.

    Science.gov (United States)

    Martin, Shelly D; Bush, Anneke C; Lynch, Julia A

    2006-09-01

    Domestic terrorism is a real threat focusing on a need to engage in effective emergency preparedness planning and training. Front-line physicians are an important component of any emergency preparedness plan. Potential victims of an attack include children who have unique physiologic and psychological vulnerabilities in disasters. Front-line providers need to have adequate training to effectively participate in local planning initiatives and to recognize and treat casualties including children. The goal of the survey was to assess the current state of terrorism preparedness training, including child victims, by emergency medicine, family practice, and pediatric residency programs in the United States and to assess methods of training and barriers to establishing effective training. A survey was e-mailed to a comprehensive list of all US pediatric, family practice, and emergency medicine residency programs 3 times between September 2003 and January 2004. The survey measured the perceived risk of terrorist attack, level of training by type of attack, level of training regarding children, method of training, and barriers to training. Overall, 21% of programs responded (46 of 182 pediatric, 75 of 400 family practice, and 29 of 125 emergency medicine programs). Across all of the event types, emergency medicine programs were more likely to report adequate/comprehensive training. However, terrorism preparedness funding, these data suggest that we are failing to provide adequate training to front-line providers who may care for children in a catastrophic domestic terrorist event.

  6. Enablers and Barriers to Community Engagement in Public Health Emergency Preparedness: A Literature Review.

    Science.gov (United States)

    Ramsbottom, Anna; O'Brien, Eleanor; Ciotti, Lucrezio; Takacs, Judit

    2018-04-01

    Public health emergency preparedness (PHEP) all too often focusses only on institutional capabilities, including their technical expertise and political influence, while overlooking community capabilities. However, the success of institutional emergency preparedness plans depends upon communities and institutions working together to ensure successful anticipation, response and recovery. Broader community engagement is therefore recommended worldwide. This literature review was carried out to identify enablers and barriers to community and institutional synergies in emergency preparedness. Searches were undertaken across bibliographic databases and grey literature sources. The literature identified was qualitative in nature. A qualitative, 'best fit' framework approach using a pre-existing framework was used to analyse the literature, whereby themes were added and changed as analysis progressed. A working definition of community was identified, based on a 'whole community' approach, inclusive of the whole multitude of stakeholders including community residents and emergency management staff. Given the diversity in community make-up, the types of emergencies that could be faced, the socio-economic, environmental and political range of communities, there are no set practices that will be effective for all communities. The most effective way of engaging communities in emergency preparedness is context-dependent and the review did draw out some important key messages for institutions to consider.

  7. Medical Preparedness and Response for a Nuclear or Radiological Emergency. Training Materials

    International Nuclear Information System (INIS)

    2014-01-01

    In almost all nuclear and radiological emergencies, local emergency services (e.g. local medical, law enforcement, and fire brigades) will have the most important role in the early response. Within hours, hospitals may also have an important role to play in the response at the local level. Since nuclear and radiological emergencies are rare, medical responders often have little or no experience in dealing with this type of emergency and inexperience may lead to an inadequate response. For this reason, training in medical preparedness and response for a nuclear or radiological emergency is an important aspect of preparedness and response activities. These materials are designed for use at a training course on medical preparedness and response for a nuclear or radiological emergency. They contain a wide range of lectures and supporting materials, which cover the basic topics and more specific areas of medical preparedness and response. Therefore, in planning their specific courses, organizers are encouraged to choose those lectures and supportive materials from the CD-ROM that best match their training priorities. Materials on the CD-ROM address the following areas: • Terrorism in Perspective; • Malicious Act Scenarios; • Providing Information to the Medical Community and the Public; • Medical Response to a Radiation Mass Casualty Event; • Handling of Contaminated Persons in Malicious Events; • Planning and Preparedness for Medical Response to Malicious Events with Radioactive Material; • Handling the Bodies of Decedents Contaminated with Radioactive Material; • Radiation Emergencies: Scope of the Problem; • Common Sources of Radiation; • Basic Concepts of Ionizing Radiation; • Basic Concepts of Radiation Protection; • Biological Effects of Ionizing Radiation – Basic Notions; • Basics of Radiopathology; • External Radioactive Contamination; • Internal Radioactive Contamination; • Acute Radiation Syndrome; • Cutaneous Radiation

  8. Emergency preparedness for those who care for infants in developed country contexts

    Directory of Open Access Journals (Sweden)

    Gribble Karleen D

    2011-11-01

    Full Text Available Abstract Emergency management organisations recognise the vulnerability of infants in emergencies, even in developed countries. However, thus far, those who care for infants have not been provided with detailed information on what emergency preparedness entails. Emergency management authorities should provide those who care for infants with accurate and detailed information on the supplies necessary to care for them in an emergency, distinguishing between the needs of breastfed infants and the needs of formula fed infants. Those who care for formula fed infants should be provided with detailed information on the supplies necessary for an emergency preparedness kit and with information on how to prepare formula feeds in an emergency. An emergency preparedness kit for exclusively breastfed infants should include 100 nappies and 200 nappy wipes. The contents of an emergency preparedness for formula fed infants will vary depending upon whether ready-to-use liquid infant formula or powdered infant formula is used. If ready-to-use liquid infant formula is used, an emergency kit should include: 56 serves of ready-to-use liquid infant formula, 84 L water, storage container, metal knife, small bowl, 56 feeding bottles and teats/cups, 56 zip-lock plastic bags, 220 paper towels, detergent, 120 antiseptic wipes, 100 nappies and 200 nappy wipes. If powdered infant formula is used, an emergency preparedness kit should include: two 900 g tins powdered infant formula, 170 L drinking water, storage container, large cooking pot with lid, kettle, gas stove, box of matches/lighter, 14 kg liquid petroleum gas, measuring container, metal knife, metal tongs, feeding cup, 300 large sheets paper towel, detergent, 100 nappies and 200 nappy wipes. Great care with regards hygiene should be taken in the preparation of formula feeds. Child protection organisations should ensure that foster carers responsible for infants have the resources necessary to formula feed in the

  9. Nuclear emergency preparedness and management the international nuclear emergency exercise Inex 2000

    International Nuclear Information System (INIS)

    Mundigl, St.

    2003-01-01

    With the initiation of the first international nuclear emergency exercise INEX 1, performed as a table-top exercise in 1993, the international community tested, for the first time, approaches and policies in place to manage a nuclear or radiological emergency. INEX 1 with its related workshops led to a wealth of lessons learned and to an improvement in nuclear emergency management. The INEX 2 exercise series, initiated by the NEA and performed between 1996 and 1999, established an international nuclear emergency 'exercise culture' leading to a clear improvement of the international aspects of nuclear emergency preparedness and management. INEX 2 was a series of four command post exercises based on national nuclear emergency exercises in Switzerland, Finland, Hungary and Canada. Simulated accidents at nuclear power plants were used to test existing procedures in emergency response and management, and to analyse local, regional, national and international emergency plans under realistic conditions. In addition, the exercises allowed the participating countries to gain experience using new concepts and tools. The most significant result of INEX 2 and a major step forward in nuclear emergency management was the development of a new communication and information exchange strategy, which is currently implemented by various NEA member countries as well as by the international community in general. The objective of this new strategy is to assist the decision-maker by improving the selection of the data transmitted, by encouraging the transmission and reception of such data and information using modern communication methods, e.g. secure world wide web technologies, and by defining emergency monitoring and modelling needs. To test the validity and usefulness of the newly-developed strategy, the NEA proposed to organize an international nuclear emergency exercise, INEX 2000, similar in scope to the INEX 2 exercises. In addition, the NEA suggested to include, for the first

  10. Preparedness and Emergency Response Learning Centers: supporting the workforce for national health security.

    Science.gov (United States)

    Richmond, Alyson L; Sobelson, Robyn K; Cioffi, Joan P

    2014-01-01

    The importance of a competent and prepared national public health workforce, ready to respond to threats to the public's health, has been acknowledged in numerous publications since the 1980s. The Preparedness and Emergency Response Learning Centers (PERLCs) were funded by the Centers for Disease Control and Prevention in 2010 to continue to build upon a decade of focused activities in public health workforce preparedness development initiated under the Centers for Public Health Preparedness program (http://www.cdc.gov/phpr/cphp/). All 14 PERLCs were located within Council on Education for Public Health (CEPH) accredited schools of public health. These centers aimed to improve workforce readiness and competence through the development, delivery, and evaluation of targeted learning programs designed to meet specific requirements of state, local, and tribal partners. The PERLCs supported organizational and community readiness locally, regionally, or nationally through the provision of technical consultation and dissemination of specific, practical tools aligned with national preparedness competency frameworks and public health preparedness capabilities. Public health agencies strive to address growing public needs and a continuous stream of current and emerging public health threats. The PERLC network represented a flexible, scalable, and experienced national learning system linking academia with practice. This system improved national health security by enhancing individual, organizational, and community performance through the application of public health science and learning technologies to frontline practice.

  11. Method for the development of emergency response preparedness for nuclear or radiological accidents

    International Nuclear Information System (INIS)

    2000-03-01

    This report supplements IAEA emergency preparedness guidance published in the 1980s, and is consistent with the new international guidance. It provides practical advice for the development of an emergency response capability based on the potential nature and magnitude of the risk. In order to apply this method, emergency planners should have a good understanding of the basic radiological emergency response principles. Therefore, other applicable international guidance should be reviewed before using this report. This report provides a practical step-by-step method for developing integrated user, local and national emergency response capabilities. It can also be used as the basis for conducting an audit of an existing emergency response capability

  12. Method for the development of emergency response preparedness for nuclear or radiological accidents

    International Nuclear Information System (INIS)

    1998-04-01

    This report supplements IAEA emergency preparedness guidance published in the 1980s, and is consistent with the new international guidance. It provides practical advice for the development of an emergency response capability based on the potential nature and magnitude of the risk. In order to apply this method, emergency planners should have a good understanding of the basic radiological emergency response principles. Therefore, other applicable international guidance should be reviewed before using this report. This report provides a practical step-by-step method for developing integrated user, local and national emergency response capabilities. It can also be used as the basis for conducting an audit of an existing emergency response capability

  13. Emergency preparedness exercises and information. Annual report 1996. Project plans 1997

    International Nuclear Information System (INIS)

    1996-12-01

    EKO-4, Emergency preparedness exercises and information exchange, consists of two sub projects. In EKO-4.1, Exercises and scenario development, a functional exercise on dose calculation has been arranged and followed up by a seminar. In addition, a seminar for intercomparison of Nordic dispersion models has been arranged bases on results from the international full scale experiment ETEX-1. Both arrangements showed to be useful for the nuclear emergency preparedness in the Nordic countries and contributed to better knowledge about the different models. Such arrangements also strengthen the personal networks. In EKO-4.1, a survey on available tools for scenario development for national and regional exercises in the Nordic country is going on. The needs from the exercise planners point of view will be focused before further development is suggested. In EKO-4.2, Nordic system for exchange of data and information, the working group has evaluated different technical solutions. The results have been presented in a report. The work with implementing the system has been delayed but it will continue next year in close co-operation with the Nordic authorities working group on emergency preparedness (NEP). A new version of the nuclear emergency preparedness handbook has been published. There is a need for further revisions and these are planned for 1997. With the new revision, the handbook will be made available on WWW. (EG)

  14. Development of a nuclear emergency preparedness support system. MEASURES and its advanced edition

    International Nuclear Information System (INIS)

    Hara, Tomohiro; Nakatsuka, Shigehiro; Watanabe, Osami; Adachi, Takeshi

    2007-01-01

    We have developed a new nuclear emergency preparedness support system for a micro scale area, called the advanced edition of MEASURES. The system simulates atmospheric dispersion of radioactive material quickly and accurately, using an airflow database and a dispersion model. It takes less than 15 minutes for 12-hour simulation, on a personal computer. The user can operate the system by GUI. (author)

  15. Hurricane Hugo: Emergency Preparedness Planning and Response for Mental Health Services.

    Science.gov (United States)

    Carter, Nancy C.; And Others

    This report describes how, in the aftermath of Hurricane Hugo, the South Carolina Department of Mental Health activated its Emergency Preparedness Plan to assist mental health centers and their staff in providing crisis counseling services to the general public. The first section explains the history and structure of the involvement by the…

  16. Work Scope for Developing Standards for Emergency Preparedness and Response: Fiscal Year 2004 Final Report

    Energy Technology Data Exchange (ETDEWEB)

    Stenner, Robert D.

    2005-09-28

    Summarizes the fiscal year 2004 work completed on PNNL's Department of Homeland Security Emergency Preparedness and Response Standards Development Project. Also, the report includes key draft standards, in various stages of development and publication, that were associated with various tasks of the fiscal year 2004 scope of the project.

  17. The Effect of Coping Knowledge on Emergency Preparedness in Elementary School Students

    Science.gov (United States)

    Kim, Shin-Jeong; Kang, So-Ra; Lee, Seung-Hee; Kang, Kyung-Ah

    2014-01-01

    The purpose of this study was to examine the effect of coping knowledge for emergency preparedness in Korean elementary school students. A school-based coping education program was provided seven times to 271 fourth- and fifth-grade students in two urban schools by researchers with the school nurses. The Process Model of Stress and Coping and…

  18. Basis for nuclear emergency planning and preparedness in Denmark. The farfield perspective

    International Nuclear Information System (INIS)

    Walmod-Larsen, O.; Thorlaksen, B.; Ulbak, K.

    1989-01-01

    The basis for the Danish Nuclear Emergency Planning and Preparedness is described. Based on calculated scenarios of hypothetical core-melt accidents at foreign nuclear power plants close to the Danish border, requirements for a farfield (medium-field) preparedness organization are set up. Early alert and adequate information to the public are essential to credibility. Sheltering is the main protective measure against external radiation and inhalation during plume passage. Rapid monitoring of radiation levels and control of foodstuffs are provided for. Evacuation before passage of the plume is not foreseen, but temporary relocation from hot spots caused by local precipitation could be considered even in the farfield region

  19. Medical and radiological aspects of emergency preparedness and response at SevRAO facilities.

    Science.gov (United States)

    Savkin, M N; Sneve, M K; Grachev, M I; Frolov, G P; Shinkarev, S M; Jaworska, A

    2008-12-01

    Regulatory cooperation between the Norwegian Radiation Protection Authority and the Federal Medical Biological Agency (FMBA) of the Russian Federation has the overall goal of promoting improvements in radiation protection in Northwest Russia. One of the projects in this programme has the objectives to review and improve the existing medical emergency preparedness capabilities at the sites for temporary storage of spent nuclear fuel and radioactive waste. These are operated by SevRAO at Andreeva Bay and in Gremikha village on the Kola Peninsula. The work is also intended to provide a better basis for regulation of emergency response and medical emergency preparedness at similar facilities elsewhere in Russia. The purpose of this paper is to present the main results of that project, implemented by the Burnasyan Federal Medical Biophysical Centre. The first task was an analysis of the regulatory requirements and the current state of preparedness for medical emergency response at the SevRAO facilities. Although Russian regulatory documents are mostly consistent with international recommendations, some distinctions lead to numerical differences in operational intervention criteria under otherwise similar conditions. Radiological threats relating to possible accidents, and related gaps in the regulation of SevRAO facilities, were also identified. As part of the project, a special exercise on emergency medical response on-site at Andreeva Bay was prepared and carried out, and recommendations were proposed after the exercise. Following fruitful dialogue among regulators, designers and operators, special regulatory guidance has been issued by FMBA to account for the specific and unusual features of the SevRAO facilities. Detailed sections relate to the prevention of accidents, and emergency preparedness and response, supplementing the basic Russian regulatory requirements. Overall it is concluded that (a) the provision of medical and sanitary components of emergency

  20. Preparation, Conduct and Evaluation of Exercises to Test Preparedness for a Nuclear or Radiological Emergency

    International Nuclear Information System (INIS)

    2010-01-01

    The aim of this publication is to serve as a practical tool for the preparation, conduct and evaluation of exercises to test preparedness for response to a nuclear or radiological emergency. It fulfils in part the functions assigned to the IAEA under Article 5.a(ii) of the Convention on Assistance in Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), namely, to collect and disseminate to States Parties and Member States information concerning the methodologies, techniques and available results of research on such emergencies. To ensure effective response to radiation emergencies when needed, provisions should be made for regular training of emergency response personnel. As stated in Preparedness and Response for a Nuclear or Radiological Emergency (Safety Requirements, Safety Standard Series No. GS-R-2), 'The operator and the response organizations shall make arrangements for the selection of personnel and training to ensure that the personnel have the requisite knowledge, skills, abilities, equipment, procedures and other arrangements to perform their assigned response functions'. A further requirement is that 'Exercise programmes shall be conducted to ensure that all specified functions required to be performed for emergency response and all organizational interfaces for facilities in threat category I, II or III and the national level programmes for threat category IV or V are tested at suitable intervals'. In 2004 the IAEA General Conference, in resolution GC(48)/RES/10 encouraged Member States to 'implement the Safety Requirements for Preparedness and Response to a Nuclear or Radiological Emergency'. This document is published as part of the IAEA Emergency Preparedness and Response Series to assist in meeting these requirements and to fulfil Article 5 of the Assistance Convention. It was developed based on a number of assumptions about national and local capabilities. Therefore, the exercise structure, terms and scenarios must be

  1. Preparedness of hazardous materials emergencies in railyards: Guidance for railroads and adjacent communities

    Energy Technology Data Exchange (ETDEWEB)

    1991-09-01

    Railroads are a key part of the distribution system for hazardous materials and, thus, much hazardous material passes through railyards en route to intermediate or final consumers. While the vast majority of these materials are shipped without incident, both the number of shipments and the nature of the materials themselves dictate that railyards and surrounding communities be prepared to respond quickly and effectively to emergencies. This report contains information on 11 emergency preparedness functions and 150 guidance recommendations.

  2. Applications of artificial intelligence and expert systems in ANGRA-I emergency preparedness - The Brazilian case

    International Nuclear Information System (INIS)

    Alvarenga, M.A.B.; Guimaraes, A.C.F.

    1991-01-01

    This study describes a system to follow a nuclear accident and points the areas where the presence of artificial intelligence could be necessary: diagnostics systems, emergency classification, accident management strategies and protective actions. Logical rules could be combined with deterministic equations to provide an expert system prototype to manage a nuclear emergency preparedness for nuclear reactors (fast or thermal) in the Brazilian Nuclear Energy National Commission. (CNEN). (author)

  3. Emergency Preparedness Hazards Assessment for solid waste management facilities in E-area not previously evaluated

    International Nuclear Information System (INIS)

    Hadlock, D.J.

    1999-01-01

    This report documents the facility Emergency Preparedness Hazards Assessment (EPHA) for the Solid Waste Management Department (SWMD) activities located on the Department of Energy (DOE) Savannah River Site (SRS) within E Area that are not described in the EPHAs for Mixed Hazardous Waste storage, the TRU Waste Storage Pads or the E-Area Vaults. The hazards assessment is intended to identify and analyze those hazards that are significant enough to warrant consideration in the SWMD operational emergency management program

  4. Emergency notification and assistance technical operations manual. Emergency preparedness and response. Date effective: 1 December 2002

    International Nuclear Information System (INIS)

    2002-11-01

    The Convention on Early Notification of a Nuclear Accident (the 'Early Notification Convention') and the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the 'Assistance Convention') are the prime legal instruments that establish an international framework to facilitate the exchange of information and the prompt provision of assistance in the event of a nuclear accident or radiological emergency, with the aim of minimizing their consequences. The International Atomic Energy Agency (IAEA) has specific functions assigned to it under these Conventions, to which, in addition to a large number of States (Section 1.7), the World Health Organization (WHO), the World Meteorological Organization (WMO) and the Food and Agriculture Organization of the United Nations (FAO) are full parties. The arrangements between the IAEA, States that are IAEA Member States and/or Parties to one or both Conventions, all other relevant international intergovernmental organizations, and other States for facilitating the implementation of these Conventions specifically concerning those articles that are operational in nature - are documented in the Emergency Notification and Assistance Technical Operations Manual (ENATOM). In 2000, a complete revision of ENATOM, with all relevant sections updated, withdrawn or replaced with new material, was reissued as EPR-ENATOM (2000) to reflect new technological developments, operational concepts, views on standards in the area of emergency preparedness and response, and Member States' expectations. A separate publication, EPR-JPLAN (2000), the Joint Radiation Emergency Management Plan of the International Organizations (Joint Plan'), described a common understanding of how each of six co-sponsoring international organizations will act during a response and in making preparedness arrangements. It is intended that the ENATOM is reviewed and reissued biennially in line with the review cycle of the Joint Plan. Since the

  5. Severe accident management at nuclear power plants - emergency preparedness and response actions

    International Nuclear Information System (INIS)

    Pawar, S.K.; Krishnamurthy, P.R.

    2015-01-01

    This paper describes the current level of emergency planning and preparedness and also improvement in the emergency management programme over the years including lessons learned from Fukushima accident, hazard analysis and categorization of nuclear facilities into hazard category for establishing the emergency preparedness class, classification of emergencies based on the Emergency Action Levels (EAL), development of EAL’s for PHWR, Generic Criteria in terms of projected dose for initiating protective actions (precautionary urgent protective actions, urgent protective actions, early protective actions), operational intervention levels (OIL), Emergency planning zones and distances, protection strategy and reference levels, use of residual dose for establishing reference levels for optimization of protection strategy, criteria for termination of emergency, transition of emergency exposure situation to existing exposure situation or planned exposure situation, criteria for medical managements of exposed persons and guidance for controlling the dose of emergency workers. This paper also highlights the EALs for typical PHWR type reactors for all types of emergencies (plant, site and offsite), transition from emergency operating procedures (EOP) to accident management guidelines (AMG) to emergency response actions and proposed implementation of guidelines

  6. Employee Perceptions of Their Organization's Level of Emergency Preparedness Following a Brief Workplace Emergency Planning Educational Presentation.

    Science.gov (United States)

    Renschler, Lauren A; Terrigino, Elizabeth A; Azim, Sabiya; Snider, Elsa; Rhodes, Darson L; Cox, Carol C

    2016-06-01

    A brief emergency planning educational presentation was taught during work hours to a convenience sample of employees of various workplaces in Northern Missouri, USA. Participants were familiarized with details about how an emergency plan is prepared by management and implemented by management-employee crisis management teams - focusing on both employee and management roles. They then applied the presentation information to assess their own organization's emergency preparedness level. Participants possessed significantly (p employees to become more involved in their organization's emergency planning and response. Educational strategies that involve management-employee collaboration in activities tailored to each workplace's operations and risk level for emergencies should be implemented.

  7. Nuclear power plant emergency preparedness: results from an evaluation of Michigan's potassium iodide distribution program.

    Science.gov (United States)

    Zwolinski, Laura R; Stanbury, Martha; Manente, Susan

    2012-10-01

    In 2009, the Michigan Department of Community Health (MDCH) made potassium iodide (KI), a nonprescription radio-protective drug, available by mailing vouchers redeemable at local pharmacies for KI tablets, at no cost to residents living within 10 miles of Michigan's 3 nuclear power plants (NPPs). MDCH conducted an evaluation of this program to determine Michigan's KI coverage and to assess general emergency preparedness among residents living near the NPPs. KI coverage was estimated based on redeemed voucher counts and the 2010 Census. Telephone surveys were administered to a random sample (N = 153) of residents living near Michigan's NPPs to evaluate general emergency preparedness, reasons for voucher use or nonuse, and KI knowledge. Only 5.3% of eligible residences redeemed KI vouchers. Most surveyed residents (76.5%) were aware of living near an NPP, yet 42.5% reported doing "nothing" to plan for an emergency. Almost half of surveyed voucher users did not know when to take KI or which body part KI protects. Among voucher nonusers, 48.0% were either unaware of the program or did not remember receiving a voucher. Additional efforts are needed to ensure that all residents are aware of the availability of KI and that recipients of the drug understand when and why it should be taken. Minimal emergency planning among residents living near Michigan's NPPs emphasizes the need for increased emergency preparedness and awareness. Findings are particularly salient given the March 2011 Fukushima Daiichi Nuclear Power Plant emergency in Japan.

  8. Public awareness - calendar with information about emergency preparedness

    International Nuclear Information System (INIS)

    Podhraski Benkovic, S.; Novosel, N.

    2009-01-01

    State Office for Nuclear Safety in co-operation with the Ministry of Science, Education and Sport, Nuclear Power Plant Krsko (in Slovenia) and Agency for Education during the years 2002 till now realized the project of preparing the calendar for families living in the circle 25 km from the Nuclear Power Plant Krsko (Slovenia) and in the circle of 100 km from Nuclear Power Plant Paks (Hungary). The calendars are containing primary school pupils' paintings about energy, environment, nuclear technology and additional information about preparedness in the Republic of Croatia in the case of nuclear accident and recommendation for acting. Collecting of paintings is carried out each year between pupils from second to eight grades in the schools near Nuclear Power Plant Krsko and Nuclear Power Plant Paks. Expert commission chose twelve best paintings for the following year. This kind of project is only one way of public relations and awareness which helps in expanding knowledge about successful living close to nuclear and other energy technologies. In this poster presentation more about this project will be presented.(author)

  9. Public awareness - calendar with information about emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Podhraski Benkovic, S; Novosel, N [State Office for Nuclear Safety, Zagreb (Croatia)

    2009-07-01

    State Office for Nuclear Safety in co-operation with the Ministry of Science, Education and Sport, Nuclear Power Plant Krsko (in Slovenia) and Agency for Education during the years 2002 till now realized the project of preparing the calendar for families living in the circle 25 km from the Nuclear Power Plant Krsko (Slovenia) and in the circle of 100 km from Nuclear Power Plant Paks (Hungary). The calendars are containing primary school pupils' paintings about energy, environment, nuclear technology and additional information about preparedness in the Republic of Croatia in the case of nuclear accident and recommendation for acting. Collecting of paintings is carried out each year between pupils from second to eight grades in the schools near Nuclear Power Plant Krsko and Nuclear Power Plant Paks. Expert commission chose twelve best paintings for the following year. This kind of project is only one way of public relations and awareness which helps in expanding knowledge about successful living close to nuclear and other energy technologies. In this poster presentation more about this project will be presented.(author)

  10. Public Awareness - Calendar with Information about Emergency Preparedness

    International Nuclear Information System (INIS)

    Podhraski Benkovic, S.; Novosel, N.

    2008-01-01

    State Office for Nuclear Safety in co-operation with the Ministry of Science, Education and Sport, Nuclear Power Plant Krsko (in Slovenia) and Agency for Education during the years 2002 till now realized the project of preparing the calendar for families living in the circle 25 km from the Nuclear Power Plant Krsko (Slovenia) and in the circle of 100 km from Nuclear Power Plant Paks (Hungary). The calendars are containing primary school pupils' paintings about energy, environment, nuclear technology and additional information about preparedness in the Republic of Croatia in the case of nuclear accident and recommendation for acting. Collecting of paintings is carried out each year between pupils from second to eight grades in the schools near Nuclear Power Plant Krsko and Nuclear Power Plant Paks. Expert commission chose twelve best paintings for the following year. This kind of project is only one way of public relations and awareness which helps in expanding knowledge about successful living close to nuclear and other energy technologies. In this poster presentation more about this project will be presented.(author)

  11. Family emergency plan and preparedness among medical practitioners in Zaria, Nigeria.

    Science.gov (United States)

    Makama, Jerry Godfrey; Joshua, Istifanus Anekoson; Makama, Elizabeth Jerry

    There has been an increase in the incidence of disasters in many parts of the world. Similarly, Nigeria has witnessed a recent increase of man-made disaster events such as plane crash, fire incidents, flood, and building collapse, including bomb blast orchestrated by terrorists that often create emergency situations. Therefore, the aim of the study was to evaluate family emergency plan and preparedness among medical practitioners in Zaria. This was a cross-sectional descriptive study (May-July, 2013) of medical practitioners in Zaria, Nigeria. The structured questionnaire sought the socio-demographic features of the respondents, the availability of emergency gate(s) in the house, education of safety measures within and outside the house, well-known located shut-off devices for gases, electricity, and water in the house, and written document/policy in the event of disaster. Also, planned orientations/drills/sensitizations, whether there is contact information of family members and supporting agencies. Majority of the respondents were male 56 (80.0 percent) and fall within the age group of 46-50 years (20.0 percent). Only 8.6 percent admitted having an unwritten policy on emergency management in their houses. Similarly, only 8.6 percent do create time to teach their family members on emergency management. Only 27 (38.6 percent) had emergency supplies kits and among this group, water appears to be the most essential component that the respondents had paid attention to, leaving out special items. The communication plans of respondents to likely supportive services/agencies during disaster showed that majority had contact address or have affirmative plans for hospital and ambulance services than for radio and television stations. Family emergency plans and preparedness among medical practitioners in Zaria are extremely low. There is a gap between knowledge of what need to be done to enhance preparedness and internalizing preparedness recommendations in the study area.

  12. Emergency notification and assistance technical operations manual. Emergency preparedness and response. Date effective: 1 December 2000

    International Nuclear Information System (INIS)

    2000-11-01

    nuclear accident or radiological emergency even if there is no direct transboundary impact, primarily for the purposes of minimizing the consequences of the accident or emergency e.g. for trade and tourism and providing advice to their nationals living, working and travelling in the Accident State. The provision of such information would also help to avoid unnecessary international rumours and concerns. In order to be able to provide such information in an emergency, States need to be prepared in advance. Moreover, States are encouraged to provide warning messages and other relevant information within the ENATOM framework even in the event of a nuclear accident or radiological emergency that does not trigger the Early Notification Convention but is of international concern. Recent work on clarifying emergency classification schemes for nuclear facilities and on identifying the key information to be transmitted for technical assessment purposes, the development of emergency preparedness and response standards and improvements in communications technology (e-mail and Web servers) have been reflected in the arrangements described in this new edition of ENATOM. ENATOM addresses the issue of requesting and providing assistance in the event of a nuclear accident or radiological emergency. For the provision of assistance, the IAEA is establishing a global Emergency Response Network (ERNET) of teams suitably qualified to respond rapidly, on a regional basis, to nuclear accidents or radiological emergencies. ENATOM states the Secretariat's expectations rather than prescribing arrangements. Nevertheless, all States, including States which are neither Member States of the IAEA nor party to either Convention, and the relevant International Intergovernmental Organisations are invited to adopt the arrangements described in it for providing and receiving information about nuclear accidents and radiological emergencies. In the event of a nuclear accident or radiological emergency, the

  13. Report of the emergency preparedness and response task force

    International Nuclear Information System (INIS)

    Dynes, R.R.; Purcell, A.H.; Wenger, D.E.; Stern, P.S.; Stallings, R.A.; Johnson, Q.T.

    1979-10-01

    The accident at Three Mile Island (TMI) marked the first time in the US when traditional planning for emergencies was applied to a possible radiological emergency. This report examines the planning that existed in the counties surrounding the plant and at the state and federal levels. It also examines the responses of the various governmental units following the initial accident

  14. Report of the Emergency Preparedness and Response Task Force

    International Nuclear Information System (INIS)

    Dynes, R.R.; Purcell, A.H.; Wenger, D.E.; Stern, P.S.; Stallings, R.A.; Johnson, Q.T.

    1979-10-01

    The accident at Three Mile Island (TMI) marked the first time in the US when traditional planning for emergencies was applied to a possible radiological emergency. This report examines the planning that existed in the counties surrounding the plant and at the state and federal levels. It also examines the responses of the various governmental units following the initial accident

  15. Emergency preparedness hazards assessment for selected 100 Area Bechtel Hanford, Inc. facilities

    International Nuclear Information System (INIS)

    1997-07-01

    The emergency preparedness hazards assessment for Bechtel Hanford Inc. (BHI) facilities in the 100 Areas of the Hanford Site. The purpose of a hazards assessment is to identify the hazardous material at each facility, identify the conditions that could release the hazardous material, and calculate the consequences of the releases. The hazards assessment is the technical basis for the facility emergency plans and procedures. There are many other buildings and past- practice burial grounds, trenches, cribs, etc., in the 100 Areas that may contain hazardous materials. Undisturbed buried waste sites that are not near the Columbia River are outside the scope of emergency preparedness hazards assessments because there is no mechanism for acute release to the air or ground water. The sites near the Columbia River are considered in a separate flood hazards assessment. This hazards assessment includes only the near-term soil remediation projects that involve intrusive activities

  16. Cooperative approach to training for radiological emergency preparedness and response in Southeast Asia

    International Nuclear Information System (INIS)

    Bus, John; Popp, Andrew; Holland, Brian; Murray, Allan

    2011-01-01

    The paper describes the collaborative and systematic approach to training for nuclear and radiological emergency preparedness and response and the outcomes of this work with ANSTO's Southeast Asian counterparts, particularly in the Philippines. The standards and criteria being applied are discussed, along with the methods, design and conduct of workshops, table-top and field exercises. The following elements of this training will be presented: (a) identifying the priority areas for training through needs analysis;(b) strengthening individual profesional expertise through a structured approach to training; and (c) enhancing individual Agency and National nuclear and radiological emergency preparedness and response arrangements and capabilities. Whilst the work is motivated by nuclear security concerns, the implications for effective and sustainable emergency response to any nuclear or radiological incidents are noted. (author)

  17. Training programmes and experiences of medical emergency preparedness for radiation accident in Japan

    Energy Technology Data Exchange (ETDEWEB)

    Suzuki-Yasumoto, M

    1982-01-01

    Our policy of training programmes for medical radiation emergency preparedness is described. We found it is necessary to have two approaches to the training of relevant personnel. The first approach was to conduct adequate basic training of nurses and health physics personnel in large nuclear installations for medical radiation emergency preparedness. We found it was necessary to have courses for basic knowledge of nuclear radiation and industrial activities, radiation monitoring procedures, radiation injuries, human counters and wound monitors, first aid practices, and radiation medical emergency procedures including practices. The second approach was to make a simple and introductory training program on the subject using lectures and visual presentations in the vicinity of big nuclear installations for personnel relating to the nuclear industrial activities and for concerned local personnel, including medical doctors and nurses. These two training courses and approaches were planned and have been conducted. 2 refs. (DT)

  18. Funding and organisation of emergency preparedness in telecommunications and electrical power supply systems

    Energy Technology Data Exchange (ETDEWEB)

    #Latin Capital Letter O With Stroke#stby, Eirik; Hagen, Janne Merete; Nystuen, Kjell Olav

    2000-01-15

    A series of two joint projects between the Directorate for Civil Defence and Emergency Planning and FFI have as main objectives to identify critical vulnerabilities in the national Telecommunications and Electrical Power Supply infrastructures. These objectives include to clarify consequences of service outages, and to evaluate various efforts to reduce the vulnerabilities and the consequences. This report presents the results of a study on the following subjects with respect to emergency preparedness within the two sectors: Legislation and organisation, Historical funding, Discussion of future models for funding. The study concludes that fundings for emergency preparedness have been reduced during the last years. This is worrying in relation to the fact that these infrastructures are increasing vulnerable, and are natural targets for incidents in peacetime as well as in war. The funding models ought to be reviewed in accordance to the ongoing transitions in market and technical developments. (author)

  19. Emergency preparedness planning: A process to insure effectiveness and efficiency

    International Nuclear Information System (INIS)

    Schroeder, A.J. Jr.

    1994-01-01

    Prevention is undoubtedly the preferred policy regarding emergency response. Unfortunately, despite best intentions, emergencies do occur. It is the prudent operator that has well written and exercised plans in place to respond to the full suite of possible situations. This paper presents a planning process to help personnel develop and/or maintain emergency management capability. It is equally applicable at the field location, the district/regional office, or the corporate headquarters. It is not limited in scope and can be useful for planners addressing incidents ranging from fires, explosions, spills/releases, computer system failure, terrorist threats and natural disasters. By following the steps in the process diagram, the planner will document emergency management capability in a logical and efficient manner which should result in effective emergency response and recovery plans. The astute planner will immediately see that the process presented is a continuing one, fully compatible with the principles of continuous improvement

  20. Involving Youth in Community Emergency Preparedness: Impacts of a Multistate Initiative

    Directory of Open Access Journals (Sweden)

    Pamela Powell

    2009-12-01

    Full Text Available The National Preparedness Guidelines (2007 state, “as uniformed responders account for less than 1% of the total U.S. population, it is clear that citizens must be better prepared, trained, and practiced on how best to take care of themselves and assist others in those first crucial hours during and after a catastrophic incident.” This is increasingly more evident due to recent disasters such as hurricane Katrina. The Alert, Evacuate and Shelter (AES program identified and trained youth/adult teams to use geospatial technology to map shelter locations and evacuation routes. Training began with team building activities to strengthen and build youth/adult preparedness partnerships. Program evaluations revealed a major shift in thinking about the positive potential level of involvement of youth in emergencies. Survey results immediately following trainings revealed statistically significant increases in participant knowledge gain regarding emergency preparedness. Follow-up evaluations indicate the success of this project in meeting community preparedness goals.

  1. Is strategic stockpiling essential?

    International Nuclear Information System (INIS)

    Anon.

    2007-01-01

    As mentioned by the European Commission, a consultant has surveyed stakeholders on the concept of setting up strategic stockpiles of natural gas, namely to boost the security of Europe's supply, much like the strategic stockpiling for petroleum products the OECD member countries carried out after the petroleum crisis. If strategic stockpiling consists in blocking off a quantity of gas in addition to the usable stockpile, the AFG believes it is necessary to assess the implications of such a measure and to examine the security gain it would actually offer compared to the measures that have already been implemented to secure supplies. (author)

  2. Evaluation of the preparedness of the children's emergency rooms ...

    African Journals Online (AJOL)

    PROMOTING ACCESS TO AFRICAN RESEARCH ... Background: The Children Emergency Room (CHER) is the first point of call for many sick children. ... limitation abounds with regards to personnel, high technology infrastructure, personnel ...

  3. Preparedness of public authorities for emergencies at nuclear power plants

    International Nuclear Information System (INIS)

    1982-01-01

    The safety guide lays down the requirements for the establishment of suitable procedures to be followed in the event of an emergency situation at a nuclear power plant. Many of the procedures would also be applicable at other nuclear facilities such as fuel manufacturing plants, irradiated fuel processing plants and the like. The guide defines reponsibilities for emergency planning, organization and action, protective measures to be taken, information and instruction of the public, training and cooperation across boundaries

  4. Emergency notification and assistance technical operations manual. Emergency preparedness and response. Date effective: 1 February 2007

    International Nuclear Information System (INIS)

    2007-01-01

    The Convention on Early Notification of a Nuclear Accident (the 'Early Notification Convention') and the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the 'Assistance Convention') are the prime legal instruments that establish an international framework to facilitate the exchange of information and the prompt provision of assistance in the event of a nuclear or radiological emergency, with the aim of minimizing the consequences. The International Atomic Energy Agency has specific functions assigned to it under these Conventions, to which, in addition to a large number of States, the World Health Organization (WHO), the World Meteorological Organization (WMO) and the Food and Agriculture Organization of the United Nations (FAO) are full parties. The arrangements provided between the IAEA, States that are IAEA Member States and/or Parties to one or both Conventions, all other relevant international intergovernmental organizations, and other States for facilitating the implementation of these Conventions - specifically concerning those articles that are operational in nature - are documented in the Emergency Notification and Assistance Technical Operations Manual (ENATOM). ENATOM was first issued on 18 January 1989. Member States, Parties to the Early Notification and Assistance Conventions, relevant international organizations and other States have since then regularly received updates to the manual. In 2000, a complete revision of ENATOM was reissued as EPR-ENATOM (2000) to reflect technological developments, changes in operational concepts, views on standards in the area of emergency preparedness and response, and Member States' expectations. Since then ENATOM has been reviewed and reissued biennially in line with the review cycle of the Joint Radiation Emergency Management Plan of the International Organizations (the 'Joint Plan'). Since the last edition of ENATOM in 2004, several factors have warranted some modifications to

  5. Dangerous quantities of radioactive material (D-values). Emergency preparedness and response. Publication date: August 2006

    International Nuclear Information System (INIS)

    2006-08-01

    Radioactive material is widely used in industry, medicine, education and agriculture. In addition, it occurs naturally. The health risk posed by these materials vary widely depending on many factors, the most important of which are the amount of the material involved and its physical and chemical form. Therefore, there is a need to identify the quantity and type of radioactive material for which emergency preparedness and other arrangements (e.g. security) are warrant due to the health risk they pose. The aim of this publication is to provide practical guidance for Member States on that quantity of radioactive material that may be considered dangerous. A dangerous quantity is that, which if uncontrolled, could be involved in a reasonable scenario resulting in the death of an exposed individual or a permanent injury, which decreases that person's quality of life. This publication is published as part of the IAEA Emergency Preparedness and Response Series. It supports several publications including: the IAEA Safety Requirements 'Preparedness and Response for a Nuclear or Radiological Emergency', IAEA Safety Standards Series No. GS-R-2. IAEA, Vienna (2002); IAEA Safety Guide 'Categorization of Radioactive Sources', IAEA Safety Standards Series No RS-G-1.9, IAEA, Vienna (2005) and IAEA Safety Guide 'Arrangements for Preparedness for a Nuclear or Radiological Emergency' IAEA Safety Standards Series No. GS-G-2.1, IAEA, Vienna (2006). The procedures and data in this publication have been prepared with due attention to accuracy. However, as part of the review process, they undergo ongoing quality assurance checks. Comments are welcome and, following a period that will allow for a more extensive review, the IAEA may revise this publication as part of the process of continuous improvement. The publication uses a number of exposure scenarios, risk models and dosimetric data, which could be used during the response to nuclear or radiological emergency or other purposes

  6. Reactor emergency preparedness: lifesaving or as low as reasonable achievable

    International Nuclear Information System (INIS)

    Hull, A.P.

    1981-01-01

    An emergency is defined as an unforseen combination of circumstances or the resultant state that calls for immediate action. Although not explicitly indicated, the implication is that the action is intended to protect life, limb and or property from extreme peril. For the most part, the kind and extent of the emergency planning required under current regulations of the USNRC do not appear to be so much related to emergencies (within the above definition) as they do toward the reduction of the off-site radiation doses from uncontrolled releases during reactor accident conditions to as low as reasonably achievable levels. Not only do the latter appear to be of questionable cost-effectiveness, but in their extent and complexity beyond normal disaster planning they may in fact be counter productive to optimum public safety

  7. Reactor emergency preparedness: lifesaving or as low as reasonable achievable

    Energy Technology Data Exchange (ETDEWEB)

    Hull, A.P.

    1981-01-01

    An emergency is defined as an unforseen combination of circumstances or the resultant state that calls for immediate action. Although not explicitly indicated, the implication is that the action is intended to protect life, limb and or property from extreme peril. For the most part, the kind and extent of the emergency planning required under current regulations of the USNRC do not appear to be so much related to emergencies (within the above definition) as they do toward the reduction of the off-site radiation doses from uncontrolled releases during reactor accident conditions to as low as reasonably achievable levels. Not only do the latter appear to be of questionable cost-effectiveness, but in their extent and complexity beyond normal disaster planning they may in fact be counter productive to optimum public safety.

  8. [The Hospital Emergency Plan: Important Tool for Disaster Preparedness].

    Science.gov (United States)

    Wurmb, Thomas; Scholtes, Katja; Kolibay, Felix; Rechenbach, Peer; Vogel, Ulrich; Kowalzik, Barbara

    2017-09-01

    Hospitals need to be prepared for any kind of disaster. The terrorist attacks and mass shootings that took place in Europe in recent years impressively demonstrated the capability of hospitals to manage such challenging and disastrous events. To be adequately prepared, the hospital emergency plan is a very important tool. In this article we describe the entire process of drafting the emergency plan. We discuss the theoretical background as well as different models of disaster planning and we give important practical hints and tips for those in charge of the hospital disaster planning. Georg Thieme Verlag KG Stuttgart · New York.

  9. Probabilistic risk assessment support of emergency preparedness at the Savannah River Site

    International Nuclear Information System (INIS)

    O'Kula, K.R.; Baker, W.H.; Simpkins, A.A.; Taylor, R.P.; Wagner, K.C.; Amos, C.N.

    1992-01-01

    Integration of the Probabilistic Risk Assessment (PRA) for K Reactor operation into related technical areas at the Savannah River Site (SRS) includes coordination with several onsite organizations responsible for maintaining and upgrading emergency preparedness capabilities. Major functional categories of the PRA application are scenario development and source term algorithm enhancement. Insights and technologies from the SRS PRA have facilitated development of: (1) credible timelines for scenarios; (2) algorithms tied to plant instrumentation to provide best-estimate source terms for dose projection; and (3) expert-system logic models to implement informed counter-measures to assure onsite and offsite safety following accidental releases. The latter methodology, in particular, is readily transferable to other reactor and non-reactor facilities at SRS and represents a distinct advance relative to emergency preparedness capabilities elsewhere in the DOE complex

  10. Environmental management and emergency preparedness plan for Tsunami disaster along Indian coast

    Directory of Open Access Journals (Sweden)

    P Chandramohan

    2017-12-01

    Full Text Available The 26 December 2004 Tsunami generated by the submarine earthquake in Andaman Sea with the magnitude of 9.2 Richter scale triggered the worst destruction, widespread inundation and extensive damage in terms of life and property along the Tamil Nadu coast and Andaman Nicobar Group of Islands. The shoreline features like dunes, vegetation and steepness of beaches played vital role in attenuating the impact of Tsunami from destruction. While the low-level Marina beach experienced minimum inundation, the coast between Adyar and Cooum was inundated heavily. As the present generation of India was not aware of Tsunami, the emergency plan and preparedness were zero and so the loss of human life was huge. In this article, the authors describe the Tsunami occurred in India on 26 December 2004 and its impacts on morphology. The appropriate Emergency Preparedness plan and the Disaster Management Plan in case of reoccurrence of such natural disaster are discussed.

  11. Evaluation of the preparedness of the children's emergency rooms ...

    African Journals Online (AJOL)

    2017-02-09

    Feb 9, 2017 ... beds per nurse ranges from 3-15, giving a nurse: patient ratio of 1:3-15. (Table 1) .... Emergency Rooms (CHER) in the tertiary health institu- .... vices offered in our tertiary centres must go beyond the mundane ... medical tourism abroad as most often any care beyond the basic ... of general practitioner care.

  12. After Virginia Tech: an analysis of Internet and social media use in campus emergency preparedness.

    Science.gov (United States)

    Guth, David W

    2013-01-01

    This study gauges the degree to which the nation's colleges and universities learned a key lesson of the 2007 Virginia Tech tragedy: the need to rapidly disseminate emergency information to the campus community. A content analysis of 162 school Web sites found that three of four contained emergency preparedness information. It appears that most are now prepared to use the Internet and social media to alert stakeholders in the event of campus crises. However, less than half had links to emergency/safety information on their home pages. School size and governance appeared to factor in its placement on each Web site.

  13. Proceedings of the REMPAN 97: 7. Coordination meeting of World Health Organization collaborating centers in radiation emergency medical preparedness and assistance network

    International Nuclear Information System (INIS)

    1997-01-01

    Special reports and panels are presented in these proceedings covering the following subjects: emergency planning and preparedness, biology, biological effects, radiation effects and therapy, internal contamination and irradiation, and national programs and activities related to radiation accident preparedness and assistance

  14. Stakeholder involvement in development and design of appropriate emergency preparedness routines in Slovakia

    International Nuclear Information System (INIS)

    Duranova, T.; Kusovska, Z.; Metke, E.; Sladek, V.; Sokolikova, A.

    2009-01-01

    The paper presents the process of stakeholder involvement in development and implementation of appropriate emergency preparedness routines in Slovakia in last five years. The paper presents the discussion of good practices, which made the work undertaken valuable and effective. The paper reflects the lessons learned during the course representing five years of stakeholder involvement effort. The paper gives detailed information on used practices and real process taken place in Slovakia. (authors)

  15. Information technology and emergency management: preparedness and planning in US states.

    Science.gov (United States)

    Reddick, Christopher

    2011-01-01

    The purpose of this paper is to examine the impact of information technology (IT) on emergency preparedness and planning by analysing a survey of US state government departments of emergency management. The research results show that there has been a significant impact of IT on emergency planning. IT has proven to be effective for all phases of emergency management, but especially for the response phase. There are numerous technologies used in emergency management, ranging from the internet, Geographic Information Systems and wireless technologies to more advanced hazard analysis models. All were generally viewed as being effective. Lack of financial resources and support from elected officials is a perennial problem in public administration, and was found to be prevalent in this study of IT and emergency management. There was evidence that state governments rating high on a performance index were more likely to use IT for emergency management. © 2011 The Author(s). Disasters © Overseas Development Institute, 2011.

  16. Emergency response preparedness analysis for radioactive materials transportation

    International Nuclear Information System (INIS)

    Parentela, E.M.; Burli, S.S.; Sathisan, S.K.; Vodrazka, W.C.

    1994-01-01

    This paper evaluates the emergency response capabilities of first responders, specifically fire services, within the state of Nevada. It addresses issues relating to the available emergency responders such as general capabilities, jurisdictions, and response times. Graphical displays of the response units and attribute tables were created using GIS ARC/INFO. These coverages, plus the existing Census Bureau TIGER Files and highway network for the state of Nevada, were utilized to determine approximate service areas of each response unit, population density served by each response unit, population density served by each response unit and the areas that can be served by a response unit for 3, 5, 10, and 30 minutes response times. Results of the analysis enabled identification of the critical areas along the proposed highway route corridor

  17. Emergency preparedness: a responsibility of the medical profession

    International Nuclear Information System (INIS)

    Sammons, J.H.

    1986-01-01

    There are a series of things that we might do with regard to emergency planning. Some are clearly obvious, some perhaps are less so. Obviously, we should try to prevent a disaster from occurring. But we know that disasters are going to happen. Second, we should attempt to minimize the number of casualties in the event of an emergency. A part of planning is traffic control, with the traffic control designed to prevent that particular difficulty. Clearly we need to prevent additional casualties once the natural or man-made disaster has occurred. Without question, we have to rescue the injured, we have to be able to provide first aid, and we have to make value judgments instantly on who needs aid and who does not. Obviously, the medical community has to supply the leaders in terms of the care of the injured. Equally obvious is that other people in the community, such as the governor, the mayor, the city manager, the chief of police, and the fire chief, have to be involved. When you become involved in emergency planning, remember that there are other people in the health care family. It is not just physicians who are important; the Red Cross, nurses, public health agencies, those in state radiation control programs, and many others also are important. And let us not forget the people with specialized training in nuclear medicine, as well as radiologists and radiation oncologists

  18. Criteria for preparation and evaluation of radiological emergency response plans and preparedness in support of nuclear power plants. Interim report

    International Nuclear Information System (INIS)

    1980-01-01

    The purpose of this document is to provide a common reference and interim guidance source for: state and local governments and nuclear facility operators in the development of radiological emergency response plans and preparedness in support of nuclear power plants; and Nuclear Regulatory Commission (NRC), Federal Emergency Management Agency (FEMA) and other Federal agency personnel engaged in the review of state, local government, and licensee plans and preparedness

  19. Hospital emergency preparedness and response during Superstorm Sandy.

    Science.gov (United States)

    2015-01-01

    This article presents the findings of a report by the HHS Office of Inspector General (OIG) on the performance of 172 Medicare-certified hospitals in the New York Metropolitan Area before, during, and after Sandy. It makes recommendations on how to close gaps that were found in emergency planning and execution for a disaster of this magnitude. To download the complete 40-page report and a Podcast based on it, go to http://oig.hhs.gov/oei/ reports/oei-06-13-00260. asp.

  20. Networking of TSOs in Emergency Preparedness and Response

    International Nuclear Information System (INIS)

    Weiss, F.P.; Maqua, M.; Kerner, A.; Scott-de-Martinville, E.

    2012-01-01

    On its 2011 General Conference, the IAEA announced the foundation of a forum of technical safety organizations (TSO), the TSO forum, to promote the international cooperation and networking among the TSOs worldwide and to complement the existing network of the regulators. In the light of the Fukushima accident it appears that in case of a large accident, every national crisis organization of the country immediately impacted needs the full access to its technical and human resources to face the situation and obviously the communication and collaboration with other crisis centers will suffer from such challenging conditions. Such a limiting issue can only be resolved by making the international collaboration of the technical crisis centers an official part of their work. Therefore, a new framework has to be settled to establish a worldwide network of technical emergency centers. This, certainly will require state negotiations at top level. The feedback experience from the collaboration between the technical emergency centers during the Fukushima accident could be very fruitful for the new framework. (A.C.)

  1. A national survey on health department capacity for community engagement in emergency preparedness.

    Science.gov (United States)

    Schoch-Spana, Monica; Selck, Frederic W; Goldberg, Lisa A

    2015-01-01

    Limited systematic knowledge exists about how public health practitioners and policy makers can best strengthen community engagement in public health emergency preparedness ("CE-PHEP"), a top priority for US national health security. To investigate local health department (LHD) adoption of federally recommended participatory approaches to PHEP and to identify LHD organizational characteristics associated with more intense CE-PHEP. National survey in 2012 of LHDs using a self-administered Web-based questionnaire regarding LHD practices and resources for CE-PHEP ("The Community Engagement for Public Health Emergency Preparedness Survey"). Differences in survey responses were examined, and a multivariate analysis was used to test whether LHD organizational characteristics were associated with differences in CE-PHEP intensity. A randomized sample of 754 LHDs drawn from the 2565 LHDs that had been invited to participate in the 2010 National Profile of LHDs. Sample selection was stratified by the size of population served and geographic location. Emergency preparedness coordinators reporting on their respective LHDs. CE-PHEP intensity as measured with a scoring system that rated specific CE-PHEP practices by LHD according to the relative degrees of public participation and community capacity they represented. Survey response rate was 61%. The most common reported CE-PHEP activity was disseminating personal preparedness materials (90%); the least common was convening public forums on PHEP planning (22%). LHD characteristics most strongly associated with more intense CE-PHEP were having a formal CE-PHEP policy, allocating funds for CE-PHEP, having strong support from community-based organizations, and employing a coordinator with prior CE experience. Promising ways to engage community partners more fully in the PHEP enterprise are institutionalizing CE-PHEP objectives, employing sufficient and skilled staff, leveraging current community-based organization support, and

  2. Method for the development of emergency response preparedness for nuclear or radiological accidents

    International Nuclear Information System (INIS)

    1997-07-01

    This report supplements IAEA emergency preparedness guidance published in the 1980s, and is consistent with the new international guidance. It provides practical advice for the development of an emergency response capability based on the potential nature and magnitude of the risk. In order to apply this method, emergency planners should have a good understanding of the basic radiological emergency response principles. Therefore, other applicable international guidance should be reviewed before using this report. This report provides a practical step-by-step method for developing integrated user, local and national emergency response capabilities. It can also be used as the basis for conducting an audit of an existing emergency response capability. 14 refs, 4 figs, 4 tabs

  3. Ready or not: does household preparedness prevent absenteeism among emergency department staff during a disaster?

    Science.gov (United States)

    Mercer, Mary P; Ancock, Benedict; Levis, Joel T; Reyes, Vivian

    2014-01-01

    During major disasters, hospitals experience varied levels of absenteeism among healthcare workers (HCWs) in the immediate response period. Loss of critical hospital personnel, including Emergency Department (ED) staff, during this time can negatively impact a facility's ability to effectively treat large numbers of ill and injured patients. Prior studies have examined factors contributing to HCW ability and willingness to report for duty during a disaster. The purpose of this study was to determine if the degree of readiness of ED personnel, as measured by household preparedness, is associated with predicted likelihood of reporting for duty. Additionally, the authors sought to elucidate other factors associated with absenteeism among ED staff during a disaster. ED staff of five hospitals participated in this survey-based study, answering questions regarding demographic information, past disaster experience, household disaster preparedness (using a novel,15-point scale), and likelihood of reporting to work during various categories of disaster. The primary outcome was personal predicted likelihood of reporting for duty following a disaster. A total of 399 subjects participated in the study. ED staffs were most likely to report for duty in the setting of an earthquake (95 percent) or other natural disaster, followed by an epidemic (90 percent) and were less likely to report for work during a biological, chemical, or a nuclear event (63 percent). Degree of household preparedness was determined to have no association with an ED HCW's predicted likelihood of reporting for duty. Factors associated with predicted absenteeism varied based on type of disaster and included having dependents in the home, female gender, past disaster relief experience, having a spouse or domestic partner, and not owning pets. Having dependents in the home was associated with predicted absenteeism for all disaster types (OR 0.30-0.66). However, when stratified by gender, the presence of

  4. Development of the efficient emergency preparedness system for the nuclear critical infrastructure

    International Nuclear Information System (INIS)

    Kostadinov, V.; Marn, J.; Petelin, S.

    2007-01-01

    The evaluation of the critical nuclear infrastructure vulnerability to threats like human occurrences, terrorist attacks and natural disasters and the preparation of emergency response plans with the estimation of optimized costs are of the vital importance for the assurance of a safe nuclear facilities operation and the national security. In the past national emergency systems did not include vulnerability assessments of the critical nuclear infrastructure as the important part of the comprehensive preparedness framework. The fundamental aims of the efficient emergency preparedness and response system are to provide a sustained emergency readiness and to prevent an emergency situation and accidents. But when an event happens the mission is to mitigate consequences and to protect the people and environment against the nuclear and radiological damage. The efficient emergency response system, which would be activated in the case of the nuclear and/or radiological emergency and release of the radioactivity to the environment, is an important element of a comprehensive system of the nuclear and radiation safety. In the article the new methodology for the critical nuclear infrastructure vulnerability assessment as a missing part of an efficient emergency preparedness system is presented. It can help the overall national energy sectors to identify and better understand the terrorist threats and vulnerabilities of their critical infrastructure. The presented methodology could also facilitate national agencies to develop and implement a vulnerability awareness and education programs for their critical assets to enhance the security, reliability and safe operation of the whole energy infrastructure. The vulnerability assessment methodology will also assist nuclear power plants to develop, validate, and disseminate the assessment and survey of new efficient countermeasures. The significant benefits of the new vulnerability assessment research are to increase nuclear power

  5. Estimation of Source terms for Emergency Planning and Preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Yi, Chul Un; Chung, Bag Soon; Ahn, Jae Hyun; Yoon, Duk Ho; Jeong, Chul Young; Lim, Jong Dae [Korea Electric Power Research Institute, Taejon (Korea, Republic of); Kang, Sun Gu; Suk, Ho; Park, Sung Kyu; Lim, Hac Kyu; Lee, Kwang Nam [Korea Power Engineering Company Consulting and Architecture Engineers, (Korea, Republic of)

    1997-12-31

    In this study the severe accident sequences for each plant of concern, which represent accident sequences with a high core damage frequency and significant accident consequences, were selected based on the results of probabilistic safety assessments and source term and time-histories of various safety parameters under severe accidents. Accidents progression analysis for each selected accident sequence was performed by MAAP code. It was determined that the measured values, dose rate and radioisotope concentration, could provide information to the operators on occurrence and timing of core damage, reactor vessel failure, and containment failure during severe accidents. Radioactive concentration in the containment atmosphere, which may be measured by PASS, was estimated. Radioisotope concentration in emergency planning, evaluation of source term behavior in the containment, estimation of core damage degree, analysis of severe accident phenomena, core damage timing, and the amount of radioisotope released to the environment. (author). 50 refs., 60 figs.

  6. Considering nuclear emergency preparedness from realities after Fukushima nuclear disaster

    International Nuclear Information System (INIS)

    Idokawa, Katsutaka

    2013-01-01

    As an ex-chief of affected town of Fukushima nuclear disaster, basic ideas were enumerated as no more accident occurring, necessity of early evacuation, all budget and right belonging to end administrator, appropriate response of government's emergency countermeasure headquarter on proposal of end administrator, failure of evacuation lead coming from government's information concealment, no more secondary damage of affected refuge, public disclosure of information, safety as the top priority with no compromise or preferred profit, new mechanism of resident's direct participation in preventing accidents, and fair review system of inspection based on checklist. Nuclear-related regulatory organizations and electric utilities should be reformed as open and transparent organization and responsible for following results of accidents. Public trust on government was completely lost after the Fukushima nuclear disaster and people should not rely on some organizations and be respective expert and foster self-defense capability so as to establish government by the people. (T. Tanaka)

  7. Analysis of the area in which arrangements for emergency preparedness and response should be intensively made

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-08-15

    In Japan, the local governments have been developing introduction of new concept for the emergency planning zone, in which arrangements for emergency preparedness and response should be intensively made, such as Precautionary Action Zone (PAZ) and Urgent Protective Action Planning Zone (UPZ). This study was planned in order to prepare the reference data for the local governments to determine the zone distances. In this study, examination of the methods for estimating the distance used as reference of these zones in the case where a severe accident would occur in a nuclear power plant was performed, and the calculated results under typical conditions were shown. (author)

  8. Proposals for Radiation (Emergency Preparedness and Public Information) Regulations (Northern Ireland). Consultative document

    International Nuclear Information System (INIS)

    2001-06-01

    This Consultative Document (CD) contains proposals by the Health and Safety Executive for Northern Ireland (HSENI) for the Radiation (Emergency Preparedness and Public Information) Regulations (Northern Ireland) (REPPIR(NI)), to partly implement, for Northern Ireland, the articles on intervention in cases of radiological emergency contained in Council Directive 96/29/Euratom on the basic safety standards for the protection of the health of workers and the general public against the dangers arising from ionising radiation (Euratom BSS96 Directive), insofar as they apply to (a) premises, and (b) transport by rail

  9. Emergency preparedness in Finland: improvement of the measurement equipment used in the assessment of internal doses

    Energy Technology Data Exchange (ETDEWEB)

    Muikku, M.; Rahola, T. [STUK - Radiation and nuclear safety authority, Helsinki (Finland)

    2006-07-01

    The need for assessing internal radiation doses in emergency situations is evident. Internal exposure can be assessed using direct measurement results or by using information on activity concentrations in inhaled air and in foodstuffs combined with inhalation and consumption data. As a part of the continuous improving of emergency preparedness in Finland, S.T.U.K. - Radiation and Nuclear Safety Authority has obtained 35 monitors for thyroid measurements in field conditions and initiated a project to revise the radiation measurement equipment in local food and environmental laboratories. (authors)

  10. Emergency preparedness hazards assessment for the Concentrate, Storage and Transfer Facility

    International Nuclear Information System (INIS)

    Blanchard, A.

    2000-01-01

    This report documents this facility Emergency Preparedness Hazards Assessment (EPHA) for the Concentrate, Storage and Transfer Facility (CSTF) located on the Department of Energy (DOE) Savannah River Site (SRS). The CSTF encompasses the F-Area and the H-Area Tank Farms including the Replacement High Level Waste Evaporator (RHLWE) (3H evaporator) as a segment of the H-Area Tank Farm. This EPHA is intended to identify and analyze those hazards that are significant enough to warrant consideration in the tank farm operational emergency management programs

  11. Decision support for off-site emergency preparedness in Europe

    International Nuclear Information System (INIS)

    Kelly, G.N.; Ehrhardt, J.

    1996-01-01

    The decision support system, RODOS, for off-site emergency management in the event of a future accident is being developed with support from the European Commission. The development is being carried out within a large and fully integrated international project involving about forty institutes from sixteen countries in Eastern and Western Europe. RODOS has been designed to provide comprehensive (i.e. applicable at all distances, at all times and to all important countermeasures) decision support and to be applicable throughout Europe. The background to the development of RODOS is described in this paper together with its basic features, its current status and plans for its further development. Given the context of this Special Issue, particular attention is given to the contribution made by institutes in the former Soviet Union to the development of RODOS and plans for its implementation in these countries. The benefits of the system are increasingly being recognised following the completion of the pilot version in 1995. Of particular importance is its potential role as part of a wider European network, the existence of which would promote a more effective and coherent response to any future nuclear accident that might affect Europe. (Author)

  12. The Stockpile Monitor Program

    International Nuclear Information System (INIS)

    Buntain, G.A.; Fletcher, M.; Rabie, R.

    1994-07-01

    Recent political changes have led to drastic reductions in the number of nuclear warheads in stockpile, as well as increased expectations for warhead-service lives. In order to support and maintain a shrinking and aging nuclear stockpile, weapon scientists and engineers need detailed information describing the environments experienced by weapons in the field. Hence, the Stockpile Monitor Program was initiated in 1991 to develop a comprehensive and accurate database of temperature and humidity conditions experienced by nuclear warheads both in storage and on-alert

  13. Identifying and Prioritizing Information Needs and Research Priorities of Public Health Emergency Preparedness and Response Practitioners.

    Science.gov (United States)

    Siegfried, Alexa L; Carbone, Eric G; Meit, Michael B; Kennedy, Mallory J; Yusuf, Hussain; Kahn, Emily B

    2017-10-01

    This study describes findings from an assessment conducted to identify perceived knowledge gaps, information needs, and research priorities among state, territorial, and local public health preparedness directors and coordinators related to public health emergency preparedness and response (PHPR). The goal of the study was to gather information that would be useful for ensuring that future funding for research and evaluation targets areas most critical for advancing public health practice. We implemented a mixed-methods approach to identify and prioritize PHPR research questions. A web survey was sent to all state, city, and territorial health agencies funded through the Public Health Emergency Preparedness (PHEP) Cooperative Agreement program and a sample of local health departments (LHDs). Three focus groups of state and local practitioners and subject matter experts from the Centers for Disease Control and Prevention (CDC) were subsequently conducted, followed by 3 meetings of an expert panel of PHPR practitioners and CDC experts to prioritize and refine the research questions. We identified a final list of 44 research questions that were deemed by study participants as priority topics where future research can inform PHPR programs and practice. We identified differences in perceived research priorities between PHEP awardees and LHD survey respondents; the number of research questions rated as important was greater among LHDs than among PHEP awardees (75%, n=33, compared to 24%, n=15). The research questions identified provide insight into public health practitioners' perceived knowledge gaps and the types of information that would be most useful for informing and advancing PHPR practice. The study also points to a higher level of information need among LHDs than among PHEP awardees. These findings are important for CDC and the PHPR research community to ensure that future research studies are responsive to practitioners' needs and provide the information

  14. Knowledge and Preparedness of Dental Practitioners on Management of Medical Emergencies in Jazan Province

    Directory of Open Access Journals (Sweden)

    Ghassan M. Al-Irany

    2018-02-01

    Full Text Available Medical emergencies are one of the most stressful situations the staff in a dental practice might encounter. The duty of care toward the attending patients obligates suitable preparedness to provide the necessary care if such emergencies ensue. Unfortunately, we found that 22% of the investigated dental clinics had no emergency kit available. Only 38% of the interviewed dentists felt confident to perform CPR, and 18% had no confidence to manage any medical emergency. An MCQ test of 20 questions examining the dentists’ knowledge in medical emergencies was distributed, and the level of knowledge was found to be suboptimal. The average score of the interviewed dentists was 10.87 out of 20. Experience and specialty training had a negligible effect on the level of knowledge.

  15. Application of geographical information system (GIS) for the preparedness for response to nuclear emergencies

    International Nuclear Information System (INIS)

    Chaudhury, Probal; Pradeepkumar, K.S.; Saindane, S.S.; Suri, M.M.K.; Sharma, D.N.

    2005-01-01

    As recommended by International Atomic Energy Agency (IAEA), preparedness for response to nuclear/radiological emergencies is essential for all nations including those not having nuclear facilities. Methodology and systems for quick assessment of radiological impact following any large scale radioactive release/contamination in the environment are already developed. Efforts are being made to provide Geographical Information System (GIS) support for enhancing the capability of quick decision making on the implementation of countermeasures and to strengthen the Emergency Preparedness Program. This requires development of the database of nuclear facilities, roads, buildings, agriculture land, population density and geolocating using geocoded addresses. GIS helps in the creation of custom maps that spatially show several data layers pertinent to the cities/area around the nuclear power plants. The GIS based software imports and spatially displays the predicted movement of radioactive plume and helps in the revision of emergency plans based on the periodic inputs from various systems and monitoring teams. These tools, allow the Emergency Response Centers to take decisions regarding the progress, success and future direction of response in large cities/complex sites. (author)

  16. Chernobyl is not everywhere. A critical review of emergency preparedness 10 years after Chernobyl

    International Nuclear Information System (INIS)

    Brunner, H.H.

    1996-01-01

    The Chernobyl shock had positive consequences for emergency preparedness. But have the right conclusions been drawn and the lessons really learnt? Some countries which were not ready when Chernobyl happened, have based their new concepts too closely on the Chernobyl scenario and do not seem to realize that a next accident may be completely different. Many concepts and developments are too academic and not adapted to the severe operational requirements of real emergency conditions. The information of the public still shows most of the deficiencies which were the cause of the only real 'catastrophic' consequences of Chernobyl outside the former Soviet Union: the information failure. A critical review of the developments in the various aspects of emergency preparedness, based on international comparisons (a.o. from NEA International Emergency exercise INEX-1 and both NEA and FS Workshops) shows both real improvements and mistakes or weak points and leads to the following positive and negative observations, conclusions and proposals for future action (given in short-hand form due to limited space). (author)

  17. Preparedness of emergency departments in northwest England for managing chemical incidents: a structured interview survey

    Directory of Open Access Journals (Sweden)

    Walter Darren

    2007-12-01

    Full Text Available Abstract Background A number of significant chemical incidents occur in the UK each year and may require Emergency Departments (EDs to receive and manage contaminated casualties. Previously UK EDs have been found to be under-prepared for this, but since October 2005 acute hospital Trusts have had a statutory responsibility to maintain decontamination capacity. We aimed to evaluate the level of preparedness of Emergency Departments in North West England for managing chemical incidents. Methods A face-to-face semi-structured interview was carried out with the Nurse Manager or a nominated deputy in all 18 Emergency Departments in the Region. Results 16/18 departments had a written chemical incident plan but only 7 had the plan available at interview. All had a designated decontamination area but only 11 felt that they were adequately equipped. 12/18 had a current training programme for chemical incident management and 3 had no staff trained in decontamination. 13/18 could contain contaminated water from casualty decontamination and 6 could provide shelter for casualties before decontamination. Conclusion We have identified major inconsistencies in the preparedness of North West Emergency Departments for managing chemical incidents. Nationally recognized standards on incident planning, facilities, equipment and procedures need to be agreed and implemented with adequate resources. Issues of environmental safety and patient dignity and comfort should also be addressed.

  18. Disaster Coverage Predication for the Emerging Tethered Balloon Technology: Capability for Preparedness, Detection, Mitigation, and Response.

    Science.gov (United States)

    Alsamhi, Saeed H; Samar Ansari, Mohd; Rajput, Navin S

    2018-04-01

    A disaster is a consequence of natural hazards and terrorist acts, which have significant potential to disrupt the entire wireless communication infrastructure. Therefore, the essential rescue squads and recovery operations during a catastrophic event will be severely debilitated. To provide efficient communication services, and to reduce casualty mortality and morbidity during the catastrophic events, we proposed the Tethered Balloon technology for disaster preparedness, detection, mitigation, and recovery assessment. The proposed Tethered Balloon is applicable to any type of disaster except for storms. The Tethered Balloon is being actively researched and developed as a simple solution to improve the performance of rescues, facilities, and services of emergency medical communication in the disaster area. The most important requirement for rescue and relief teams during or after the disaster is a high quality of service of delivery communication services to save people's lives. Using our proposed technology, we report that the Tethered Balloon has a large disaster coverage area. Therefore, the rescue and research teams are given higher priority, and their performance significantly improved in the particular coverage area. Tethered Balloon features made it suitable for disaster preparedness, mitigation, and recovery. The performance of rescue and relief teams was effective and efficient before and after the disaster as well as can be continued to coordinate the relief teams until disaster recovery. (Disaster Med Public Health Preparedness. 2018;12:222-231).

  19. Preparation of off-site emergency preparedness plans for nuclear installations

    International Nuclear Information System (INIS)

    1999-10-01

    Safety of public, occupational workers and the protection of environment should be assured while activities for economic and social progress are pursued. These activities include the establishment and utilisation of nuclear facilities and use of radioactive sources. This document is issued as a lead document to facilitate preparation of specific site manuals by the Responsible Organisation for emergency response plans at each site to ensure their preparedness to meet any eventuality due to site emergency in order to mitigate its consequences on the health and safety of site personnel. It takes cognizance of an earlier AERB publication on the subject: Safety Manual on Off-Site Emergency Plan for Nuclear Installations, AERB/SM/NISD-2, 1988 and also takes into consideration the urgent need for promoting public awareness and drawing up revised emergency response plans, which has come out in a significant manner after the accidents at Chernobyl and Bhopal

  20. Preparedness and response for a nuclear or radiological emergency. Safety requirements

    International Nuclear Information System (INIS)

    2004-01-01

    This Safety Requirements publication establishes the requirements for an adequate level of preparedness and response for a nuclear or radiological emergency in any State. Their implementation is intended to minimize the consequences for people, property and the environment of any nuclear or radiological emergency. The fulfilment of these requirements will also contribute to the harmonization of arrangements in the event of a transnational emergency. These requirements are intended to be applied by authorities at the national level by means of adopting legislation, establishing regulations and assigning responsibilities. The requirements apply to all those practices and sources that have the potential for causing radiation exposure or environmental radioactive contamination warranting an emergency intervention and that are: (a) Used in a State that chooses to adopt the requirements or that requests any of the sponsoring organizations to provide for the application of the requirements. (B) Used by States with the assistance of the FAO, IAEA, ILO, PAHO, OCHA or WHO in compliance with applicable national rules and regulations. (C) Used by the IAEA or which involve the use of materials, services, equipment, facilities and non-published information made available by the IAEA or at its request or under its control or supervision. Or (d) Used under any bilateral or multilateral arrangement whereby the parties request the IAEA to provide for the application of the requirements. The requirements also apply to the off-site jurisdictions that may need to make an emergency intervention in a State that adopts the requirements. The types of practices and sources covered by these requirements include: fixed and mobile nuclear reactors. Facilities for the mining and processing of radioactive ores. Facilities for fuel reprocessing and other fuel cycle facilities. Facilities for the management of radioactive waste. The transport of radioactive material. Sources of radiation used in

  1. Criteria for preparation and evaluation of radiological emergency response plans and preparedness in support of nuclear power plants: Criteria for utility offsite planning and preparedness: Final report

    International Nuclear Information System (INIS)

    Podolak, E.M. Jr.; Sanders, M.E.; Wingert, V.L.; Donovan, R.W.

    1988-09-01

    The Nuclear Regulatory Commission (NRC) and the Federal Emergency Management Agency (FEMA) have added a supplement to NUREG-0654/FEMA-REP-1, Rev. 1 that provides guidance for the development, review, and evaluation of utility offsite radiological emergency response planning and preparedness for those situations in which state and/or local governments decline to participate in emergency planning. While this guidance primarily applies to plants that do not have full-power operating licenses, it does have relevance to operating nuclear power plants

  2. Assessing the integration of health center and community emergency preparedness and response planning.

    Science.gov (United States)

    Wineman, Nicole V; Braun, Barbara I; Barbera, Joseph A; Loeb, Jerod M

    2007-11-01

    To assess the state of health center integration into community preparedness, we undertook a national study of linkages between health centers and the emergency preparedness and response planning initiatives in their communities. The key objectives of this project were to gain a better understanding of existing linkages in a nationally representative sample of health centers, and identify health center demographic and experience factors that were associated with strong linkages. The objectives of the study were to gain a baseline understanding of existing health center linkages to community emergency preparedness and response systems and to identify factors that were associated with strong linkages. A 60-item questionnaire was mailed to the population of health centers supported by the Health Resources and Services Administration's Bureau of Primary Health Care in February 2005. Results were aggregated and a chi square analysis identified factors associated with stronger linkages. Overall performance on study-defined indicators of strong linkages was low: 34% had completed a hazard vulnerability analysis in collaboration with the community emergency management agency, 30% had their role documented in the community plan, and 24% participated in community-wide exercises. Stronger linkages were associated with experience responding to a disaster and a perception of high risk for experiencing a disaster. The potential for health centers to participate in an integrated response is not fully realized, and their absence from community-based planning leaves an already vulnerable population at greater risk. Community planners should be encouraged to include health centers in planning and response and centers should receive more targeted resources for community integration.

  3. Emergency Preparedness. Practical proposals for further harmonisation of the reactions in European countries to any distant nuclear or radiological emergency

    International Nuclear Information System (INIS)

    Aaltonen, Hannele; Bijlholt, Jette; Calvaro, Jose-Manuel Martin; Degueldre, Didier; Vandecasteele, Christian; Willems, Petra; Djounova, Jana; Fueloep, Nandor; Haywood, Stephanie; Herzeele, Michel; Janssens, Augustin; ); Hofer, Peter; Holo, Eldri; Hubbard, Lynn; Lindh, Karin; Isnard, Olivier; Lieser, Joachim; Majerus, Patrick; McMahon, Ciara; Nizamska, Marina; Palsson, Sigurdur Emil; Perrin, Marie-Line; Xicluna, Delphine; Piller, Georges; Rusch, Ronald; Rauber, Dominique; Rother, Wolfram; Stephen, Patrick; Tkavc, Marjan; Van Gelder, Iris

    2013-06-01

    It was clear from the accident at Fukushima Dai-ichi in Japan in March 2011 that national assessment and responses to nuclear emergencies even if at a great distance from Europe could be significantly improved by a more rapid exchange of information. Discussions on this point during the 7. HERCA Board of Heads meeting in June 2011 led to the 'Working Group Emergencies' (WGE) being tasked with reviewing the issues and proposing practical working solutions for a more harmonized approach in response to such distant nuclear and radiological emergency situations. The present report is the result of that work. The aim of the report is on the one hand to assist radiological safety authorities to improve their preparedness in some areas and, on the other hand, to provide an overview of the important radiological issues to be considered by radiation protection authorities in the event of a nuclear or radiological emergency in a distant country

  4. Emergency preparedness incident response and radiation monitoring in Finland. Annual report 1999

    International Nuclear Information System (INIS)

    Ristonmaa, S.

    2000-04-01

    The Radiation and Nuclear Safety Authority (STUK) publishes annually a report about STUK's preparedness measures. The report describes notifications received by STUK's on duty system and further measures carried out after receiving a message. In addition, the emergence exercises STUK participated in during the year are described. The radiation situation in Finland is continuously monitored. STUK is the authority who carries out a wide range of environmental measurements, sampling and sensitive laboratory analyses. The measurement results are presented in the form of tables and graphically. (editor)

  5. Emergency preparedness incident response and radiation monitoring in Finland. Annual report 1998

    International Nuclear Information System (INIS)

    Ristonmaa, S.

    1999-03-01

    The Radiation and Nuclear Safety Authority (STUK) publishes annually a report about STUK's preparedness measures. The report describes notifications received by STUK's on duty system and further measures carried out after receiving a message. In addition, the emergence exercises STUK participated in during the year are described. The radiation situation in Finland is continuously monitored. STUK is the authority who carries out a wide range of environmental measurements, sampling and sensitive laboratory analyses. The measurement results are presented in the form of tables and graphically. (editor)

  6. Superstorm Sandy's forgotten patient: a lesson in emergency preparedness in severe obesity.

    Science.gov (United States)

    Ramme, Austin J; Vira, Shaleen; McLaurin, Toni M

    2015-02-01

    Superstorm Sandy gained national attention in late 2012 after its impact on the Northeastern US. In New York City, thousands of residents lost power, and multiple hospitals were forced to evacuate. Bellevue Hospital Center (BHC), the nation's oldest public hospital, was forced to close for the first time in over 275 years. Two patients remained in BHC three days after the primary evacuation without water service and minimal power. Herein, we describe the challenges associated with evacuating a severely obese patient. Obesity management is challenging and at an institutional level must be addressed in emergency preparedness plans. © 2014 The Obesity Society.

  7. High-fidelity hybrid simulation of allergic emergencies demonstrates improved preparedness for office emergencies in pediatric allergy clinics.

    Science.gov (United States)

    Kennedy, Joshua L; Jones, Stacie M; Porter, Nicholas; White, Marjorie L; Gephardt, Grace; Hill, Travis; Cantrell, Mary; Nick, Todd G; Melguizo, Maria; Smith, Chris; Boateng, Beatrice A; Perry, Tamara T; Scurlock, Amy M; Thompson, Tonya M

    2013-01-01

    Simulation models that used high-fidelity mannequins have shown promise in medical education, particularly for cases in which the event is uncommon. Allergy physicians encounter emergencies in their offices, and these can be the source of much trepidation. To determine if case-based simulations with high-fidelity mannequins are effective in teaching and retention of emergency management team skills. Allergy clinics were invited to Arkansas Children's Hospital Pediatric Understanding and Learning through Simulation Education center for a 1-day workshop to evaluate skills concerning the management of allergic emergencies. A Clinical Emergency Preparedness Team Performance Evaluation was developed to evaluate the competence of teams in several areas: leadership and/or role clarity, closed-loop communication, team support, situational awareness, and scenario-specific skills. Four cases, which focus on common allergic emergencies, were simulated by using high-fidelity mannequins and standardized patients. Teams were evaluated by multiple reviewers by using video recording and standardized scoring. Ten to 12 months after initial training, an unannounced in situ case was performed to determine retention of the skills training. Clinics showed significant improvements for role clarity, teamwork, situational awareness, and scenario-specific skills during the 1-day workshop (all P clinics (all P ≤ .004). Clinical Emergency Preparedness Team Performance Evaluation scores demonstrated improved team management skills with simulation training in office emergencies. Significant recall of team emergency management skills was demonstrated months after the initial training. Copyright © 2013 American Academy of Allergy, Asthma & Immunology. Published by Elsevier Inc. All rights reserved.

  8. Before the Emergency: A Framework for Evaluating Emergency Preparedness Alternatives at Higher Education Institutions

    Science.gov (United States)

    2010-09-01

    Assessment, and Management. While insightful, the approaches presented in this book require an extensive understanding of mathematics and engineering...use actuarial data to make this type of a calculation, but it seems unlikely that a university decision maker will make a decision about pursing a...proposed preparedness or mitigation strategy using actuarial data. Building a disaster resistant university in accordance with the guidelines

  9. A Conceptual Framework to Measure Systems’ Performance during Emergency Preparedness Exercises

    Directory of Open Access Journals (Sweden)

    Elena Savoia

    2014-09-01

    Full Text Available Large-scale public health emergencies require a sophisticated, coordinated response involving multiple entities to protect health and minimize suffering. However, the rarity of such emergencies presents a barrier to gathering observational data about the effectiveness of the public health response before such events occur. For this reason, public health practitioners increasingly have relied on simulated emergencies, known as “exercises” as proxies to test their emergency capabilities. However, the formal evaluation of performance in these exercises, historically has been inconsistent, and there is little research to describe how data acquired from simulated emergencies actually support conclusions about the quality of the public health emergency response system. Over the past six years, we have designed and evaluated more than seventy public health emergency exercises, collaborating with public health agencies, hospitals and others to test a wide variety of systems and their capabilities. Using the data and experience that we gathered, we have developed a conceptual framework that describes the essential elements necessary to consider when applying performance measurement science to public health emergency exercises. We suggest that this framework may assist practitioners and researchers who wish to better measure performance in exercises and to improve public health emergency preparedness.

  10. Nuclear power plants in Germany. Recent developments in off-site nuclear emergency preparedness and response; Kernkraftwerke in Deutschland. Neue Entwicklungen im anlagenexternen Notfallschutz

    Energy Technology Data Exchange (ETDEWEB)

    Gering, Florian [Bundesamt fuer Strahlenschutz, Oberschleissheim/Neuherberg (Germany). Abt. SW 2.2 Entscheidungshilfesysteme, Lageermittlung und Kommunikation

    2014-10-15

    The reactor accident in Fukushima, Japan, in 2011 triggered a thorough review of the off-site emergency preparedness and response for nuclear power plants in Germany. ''Off-site emergency preparedness and response'' includes all actions to protect the public outside the fence of a nuclear power plant. This review resulted in several changes in off-site emergency preparedness and response, which are briefly described in this article. Additionally, several recent activities are described which may influence emergency preparedness and response in the future.

  11. Development and use of consolidated criteria for evaluation of emergency preparedness plans for DOE facilities

    International Nuclear Information System (INIS)

    Lerner, K.; Kier, P.H.; Baldwin, T.E.

    1995-01-01

    Emergency preparedness at US Department of Energy (DOE) facilities is promoted by development and quality control of response plans. To promote quality control efforts, DOE has developed a review document that consolidates requirements and guidance pertaining to emergency response planning from various DOE and regulatory sources. The Criteria for Evaluation of Operational Emergency Plans (herein referred to as the Criteria document) has been constructed and arranged to maximize ease of use in reviewing DOE response plans. Although developed as a review instrument, the document also serves as a de facto guide for plan development, and could potentially be useful outside the scope of its original intended DOE clientele. As regulatory and DOE requirements are revised and added in the future, the document will be updated to stay current

  12. Joint radiation emergency management plan of the international organizations. Emergency preparedness and response. Date effective: 1 December 2002

    International Nuclear Information System (INIS)

    2002-11-01

    The Convention on Early Notification of a Nuclear Accident (the 'Early Notification Convention') and the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the 'Assistance Convention') are the prime legal instruments that establish an international framework to facilitate the exchange of information and the prompt provision of assistance in the event of a nuclear accident or radiological emergency, with the aim of minimizing the consequences. The International Atomic Energy Agency (IAEA) has specific functions allocated to it under these Conventions, to which, in addition to a number of States, the World Health Organization (WHO), the World Meteorological Organization (WMO) and the Food and Agriculture Organization of the United Nations (FAO) are full Parties. Since 1989, the arrangements between these organizations for facilitating the practical implementation of those articles of the two Conventions that are operational in nature have been documented by the IAEA in the Emergency Notification and Assistance Technical Operations Manual (ENATOM). The manual is intended for use primarily by Contact Points as identified in the Conventions. Pursuant to the obligations placed on it by the Conventions, the IAEA regularly convenes the Inter-Agency Committee on Response to Nuclear Accidents (lACRNA), whose purpose is to co-ordinate the arrangements of the relevant international intergovernmental organizations ('international organizations') for preparing for and responding to nuclear or radiological emergencies. Although the Conventions assign specific response functions and responsibilities to the IAEA and the Parties, various international organizations have - by virtue of their statutory functions or of related legal instruments - general functions and responsibilities that encompass aspects of preparedness and response. Moreover, some regional organizations (e.g. the European Union) are party to legally binding treaties and have

  13. Network of siren, public address and display system to preparedness and response for nuclear emergencies

    International Nuclear Information System (INIS)

    Joshi, G.H.; Padmanabhan, N.; Raman, N.; Pradeepkumar, K.S.; Sharma, D.N.; Abani, M.C.

    2003-01-01

    For an effective emergency response and implementation of counter measures, communication during a nuclear emergency is a very important aspect. The declaration of a nuclear emergency must be immediately conveyed to all those working in the plant and around the nuclear site. Besides this, the nature of emergency also needs to be conveyed unambiguously along with corresponding counter measures, such as stay in, evacuation or all clear signal for the relevant plants. This requirement has necessitated the need for a networked signaling system. Based on this requirement, a microcontroller based signaling and a telephone/wireless based communication and display system has been designed at Bhabha Atomic Research Centre. It is proposed to be used as a part of emergency preparedness and response programme at the nuclear facility sites. As per the design made for Bhabha Atomic Research Centre, Trombay site, each plant or area in the site is identified by a unique identification code. The main Site Emergency Control Centre/Emergency Response Centre at Mod. Labs. selectively calls the various plants and declares the nature of emergency to be followed In that plant/area through different siren signals along with display and announcement of instructions. This paper describes the details of the system that is designed for Bhabha Atomic Research Centre, Trombay site and proposed for other nuclear power plant sites. (author)

  14. Emergency Preparedness and Response in the School Setting--The Role of the School Nurse. Position Statement

    Science.gov (United States)

    Tuck, Christine M.; Haynie, Kathey; Davis, Catherine

    2014-01-01

    It is the position of the National Association of School Nurses (NASN) that the registered professional school nurse (hereinafter referred to as school nurse) provides leadership in all phases of emergency preparedness and response. School nurses are a vital part of the school team responsible for developing emergency response procedures for the…

  15. Association Between Home Visit Programs and Emergency Preparedness Among Elderly Vulnerable People in New South Wales, Australia

    Directory of Open Access Journals (Sweden)

    W. Kathy Tannous PhD

    2017-03-01

    Full Text Available Objective: The purpose of this study is to examine the association between home visit programs and emergency preparedness among elderly vulnerable people in New South Wales, Australia. Method: The study used data acquired from an intervention program run by emergency agencies and consisted of 370 older people. Seven emergency outcome measures were examined by adjusting for key demographic factors, using a generalized estimating equation model, to examine the association between home visit programs and emergency preparedness. Results: The study revealed that knowledge demonstrated by participants during visits and post home visits showed significant improvements in the seven emergency outcome measures. The odds of finding out what emergencies might affect one’s area were significantly lower among older participants who were born outside Australia and those who were women. Discussion: The findings suggest that the intervention via home visits and periodic reminders post these visits may be a useful intervention in improving emergency preparedness among older people, especially among men and those who were born outside of Australia. In addition, other reminders such as safety messaging via mobile or landline telephone calls may also be a supplementary and useful intervention to improve emergency preparedness among older people.

  16. Involvement of the Public Health Authority in emergency planning and preparedness for nuclear facilities in Hungary

    International Nuclear Information System (INIS)

    Sztanyik, L.B.

    1986-01-01

    It is required by the Hungarian Atomic Energy Act and its enacting clause of 1980 that facilities established for the application of atomic energy be designed, constructed and operated in such a manner that abnormal operational occurrences can be avoided and unplanned exposures to radiation and radioactive substances can be prevented. The primary responsibility for planning and implementing emergency actions rests with the management of the operating organization. Thus one of the prerequisites of licensing the first nuclear power plant in Hungary was the preparation and submission for approval of an emergency plan by the operating organization. In addition to this, the council of the county where the power plant is located has also been obliged to prepare a complementary emergency plan, in co-operation with other regional and national authorities, for the prevention of consequences from an emergency that may extend beyond the site boundary of the plant. In preparing the complementary plan, the emergency plan of the facility had to be taken into account. Unlike most national authorities involved in nuclear matters, the Public Health Authority is involved in the preparation of plans for every kind of emergency in a nuclear facility, including even those whose consequences can probably be confined to the plant site. The paper discusses in detail the role and responsibility of the Public Health Authority in emergency planning and preparedness for nuclear facilities. (author)

  17. Summer school on radio monitoring as a part of radioecological education and emergency preparedness program

    Energy Technology Data Exchange (ETDEWEB)

    Poyarkov, V.; Kadenko, I.; Jordynsky, D.; Nazarov, A.; Dubchak, S. [Ministry of Emergemcies, Kiev (Ukraine). Ukrainian Radiation Trainig Center

    1997-12-31

    The International Summer School is organized by the Ukrainian Radiation Training Centre of the Ministry of Ukraine of Emergencies and Affairs of Population Protection from the Consequences of Chernobyl Catastrophe to provide training and experience in the techniques of environmental radiation monitoring and emergency preparedness training of students and to enhance knowledge`s of specialists in different fields of radioecology as well. It includes classroom instructions and training in areas affected by the Chernobyl accident. Within selected areas dose rates and gamma flux measurements have been conducted at two different heights. Ten measurements for dose rate and for gamma flux were done at each selected point of sites. The main results of summer school activities are briefly presented 4 refs., 1 fig., 8 tab.

  18. Finnish experience on emergency preparedness co-operation work and results

    International Nuclear Information System (INIS)

    Sovijarvi, Jukka

    2014-01-01

    Document available in abstract form only. According to the 'Security Strategy for Society' the responsibilities are shared across society and the normal division of duties shall be maintained unchanged as far as possible in all situations. While the competent authority is always in charge of making decisions other administrative sectors may be cooperation partners. This applies to the representatives of business community and organization as well. The first regional co-operation group for NPP emergency preparedness consisting of the representatives of regional rescue service, NPP licensee and STUK was established in 2008 to develop the external rescue plan, arrange training etc. Today co-operation groups are working for both Finnish emergency planning zones. Examples of the co-operation results are discussed in the presentation. (author)

  19. Nuclear emergency preparedness. Final report of the Nordic nuclear safety research project BOK-1

    Energy Technology Data Exchange (ETDEWEB)

    Lauritzen, Bent [Risoe National Lab., Roskilde (Denmark)

    2002-02-01

    Final report of the Nordic Nuclear Safety Research project BOK-1. The BOK-1 project, 'Nuclear Emergency Preparedness', was carried out in 1998-2001 with participants from the Nordic and Baltic Sea regions. The project consists of six sub-projects: Laboratory measurements and quality assurance (BOK-1.1); Mobile measurements and measurement strategies (BOK-1.2); Field measurement and data assimilation (BOK-1.3); Countermeasures in agriculture and forestry (BOK-1.4); Emergency monitoring in the Nordic and Baltic Sea countries (BOK-1.5); and Nuclear exercises (BOK-1.6). For each sub-project, the project outline, objectives and organization are described and main results presented. (au)

  20. Summer school on radio monitoring as a part of radioecological education and emergency preparedness program

    International Nuclear Information System (INIS)

    Poyarkov, V.; Kadenko, I.; Jordynsky, D.; Nazarov, A.; Dubchak, S.

    1997-01-01

    The International Summer School is organized by the Ukrainian Radiation Training Centre of the Ministry of Ukraine of Emergencies and Affairs of Population Protection from the Consequences of Chernobyl Catastrophe to provide training and experience in the techniques of environmental radiation monitoring and emergency preparedness training of students and to enhance knowledge's of specialists in different fields of radioecology as well. It includes classroom instructions and training in areas affected by the Chernobyl accident. Within selected areas dose rates and gamma flux measurements have been conducted at two different heights. Ten measurements for dose rate and for gamma flux were done at each selected point of sites. The main results of summer school activities are briefly presented

  1. Nuclear emergency preparedness. Final report of the Nordic nuclear safety research project BOK-1

    International Nuclear Information System (INIS)

    Lauritzen, Bent

    2002-02-01

    Final report of the Nordic Nuclear Safety Research project BOK-1. The BOK-1 project, 'Nuclear Emergency Preparedness', was carried out in 1998-2001 with participants from the Nordic and Baltic Sea regions. The project consists of six sub-projects: Laboratory measurements and quality assurance (BOK-1.1); Mobile measurements and measurement strategies (BOK-1.2); Field measurement and data assimilation (BOK-1.3); Countermeasures in agriculture and forestry (BOK-1.4); Emergency monitoring in the Nordic and Baltic Sea countries (BOK-1.5); and Nuclear exercises (BOK-1.6). For each sub-project, the project outline, objectives and organization are described and main results presented. (au)

  2. Review of off-site emergency preparedness and response plan of Indian NPPs based on experience of Fukushima nuclear accident

    International Nuclear Information System (INIS)

    Singh, Hukum; Dash, M.; Shukla, Vikas; Vijayan, P.; Krishnamurthy, P.R.

    2012-01-01

    Nuclear power plants in India are designed, constructed and operated based on the principle of the highest priority to nuclear safety. To deal with any unlikely situation of radiological emergency, the emergency preparedness and response plans are ensured to be in place at all NPPs prior to their commissioning. These plans are periodically reviewed and tested by conducting emergency exercise with the participation of various agencies such as Nuclear Power Corporation of India Limited, NDMA, district authorities, regulatory body and general public. On March 11, 2011 an earthquake of magnitude 9.0 hit the Fukushima Dai-ichi and Dai-ni followed by tsunami waves of height 15 meters above reference sea level. This resulted in large scale release of radioactive material from Fukushima Dai-ichi NPS. This led to the evacuation of a large number of people from the areas surrounding the affected nuclear power plants. The event was rated as level 7 event in International Nuclear Event Scale (INES). The event also revealed the challenges in handling radiological emergency situation in adverse environmental conditions, The experience of managing radiological emergency situation during Fukushima nuclear accident provides opportunities to review and improve emergency preparedness and response programme. The present paper presents the chronology of the emergency situation, challenges faced and handled in Fukushima. Even though the possibility of a Fukushima type nuclear accident in India is very remote due to the low probability of a high intensity earthquake followed by tsunami at NPP sites, the efforts needs to be initiated from the regulatory point of view for an effective Nuclear and Radiological Emergency Preparedness and Response Plans. The Emergency Preparedness and Response Plans of NPP sites were reviewed in the light of unique challenges of accident at Fukushima. It is realized that multi unit events are the realities that must be addressed as part of Emergency

  3. Review of off-site emergency preparedness and response plan of Indian NPPs based on experience of Fukushima nuclear accident

    Energy Technology Data Exchange (ETDEWEB)

    Singh, Hukum; Dash, M.; Shukla, Vikas; Vijayan, P.; Krishnamurthy, P.R., E-mail: vshukla@aerb.gov.in [Operating Plants Safety Division, Atomic Energy Regulatory Board, Mumbai (India)

    2012-07-01

    Nuclear power plants in India are designed, constructed and operated based on the principle of the highest priority to nuclear safety. To deal with any unlikely situation of radiological emergency, the emergency preparedness and response plans are ensured to be in place at all NPPs prior to their commissioning. These plans are periodically reviewed and tested by conducting emergency exercise with the participation of various agencies such as Nuclear Power Corporation of India Limited, NDMA, district authorities, regulatory body and general public. On March 11, 2011 an earthquake of magnitude 9.0 hit the Fukushima Dai-ichi and Dai-ni followed by tsunami waves of height 15 meters above reference sea level. This resulted in large scale release of radioactive material from Fukushima Dai-ichi NPS. This led to the evacuation of a large number of people from the areas surrounding the affected nuclear power plants. The event was rated as level 7 event in International Nuclear Event Scale (INES). The event also revealed the challenges in handling radiological emergency situation in adverse environmental conditions, The experience of managing radiological emergency situation during Fukushima nuclear accident provides opportunities to review and improve emergency preparedness and response programme. The present paper presents the chronology of the emergency situation, challenges faced and handled in Fukushima. Even though the possibility of a Fukushima type nuclear accident in India is very remote due to the low probability of a high intensity earthquake followed by tsunami at NPP sites, the efforts needs to be initiated from the regulatory point of view for an effective Nuclear and Radiological Emergency Preparedness and Response Plans. The Emergency Preparedness and Response Plans of NPP sites were reviewed in the light of unique challenges of accident at Fukushima. It is realized that multi unit events are the realities that must be addressed as part of Emergency

  4. Emergency preparedness for the accidental release of radionuclides from the Uljin Nuclear Power Plant in Korea.

    Science.gov (United States)

    Park, Soon-Ung; Lee, In-Hye; Joo, Seung Jin; Ju, Jae-Won

    2017-12-01

    Site specific radionuclide dispersion databases were archived for the emergency response to the hypothetical releases of 137 Cs from the Uljin nuclear power plant in Korea. These databases were obtained with the horizontal resolution of 1.5 km in the local domain centered the power plant site by simulations of the Lagrangian Particle Dispersion Model (LPDM) with the Unified Model (UM)-Local Data Assimilation Prediction System (LDAPS). The Eulerian Dispersion Model-East Asia (EDM-EA) with the UM-Global Data Assimilation Prediction System (UM-GDAPS) meteorological models was used to get dispersion databases in the regional domain. The LPDM model was performed for a year with a 5-day interval yielding 72 synoptic time-scale cases in a year. For each case hourly mean near surface concentrations, hourly mean column integrated concentrations, hourly total depositions for 5 consecutive days were archived by the LPDM model in the local domain and by the EDM-EA model in the regional domain of Asia. Among 72 synoptic cases in a year the worst synoptic case that showed the highest mean surface concentration averaged for 5 days in the LPDM model domain was chosen to illustrate the emergency preparedness to the hypothetical accident at the site. The simulated results by the LPDM model with the 137 Cs emission rate of the Fukushima nuclear power plant accident for the first 5-day period were found to be able to provide prerequisite information for the emergency response to the early phase of the accident whereas those of the EDM-EA model could provide information required for the environmental impact assessment of the accident in the regional domain. The archived site-specific database of 72 synoptic cases in a year could have a great potential to be used as a prognostic information on the emergency preparedness for the early phase of accident. Copyright © 2017 Elsevier Ltd. All rights reserved.

  5. New and recently finalised activities within the NKS Programmes for Nordic cooperation on nuclear reactor safety and emergency preparedness

    DEFF Research Database (Denmark)

    Andgren, Karin; Andersson, Kasper Grann; Magnússon, Sigurður M.

    2015-01-01

    Over the years, NKS has provided funding for hundreds of research activities in fields comprising reactor safety, decommissioning, nuclear and radiological emergency preparedness, and management of radioactive waste. Advanced technologies and methods developed under the NKS framework have been used...... within the Nordic countries as well as internationally. Two programme areas are defined under the NKS platform: The NKS-R programme on nuclear reactor safety and the NKS-B programme on emergency preparedness. Three articles, giving an introduction to NKS and its two programmes, were published...

  6. Emergency Preparedness and Response. Working to Protect People, Society and the Environment

    International Nuclear Information System (INIS)

    2013-01-01

    The IEC develops safety standards and guidelines relating to preparedness for, and response to, nuclear or radiological incidents and emergencies, independently of the cause, and technical documents and training materials for the application of those standards. The IEC also provides training and services to assist Member States in strengthening and maintaining their regional, national, local and on-site response capabilities. An extra resource to the IAEA's response system is foreseen through the Response and Assistance Network (RANET), which represents a network of registered national capabilities in different EPR areas. Its objectives are the provision of requested international assistance, the harmonization of emergency assistance capabilities and the relevant exchange of information and feedback of experience. Important components of the global emergency response system are the notification and reporting arrangements and secure and reliable communication systems operated around the clock by the IEC. States and international organizations report events and submit requests for assistance to the IAEA through the Unified System for Information Exchange on Incidents and Emergencies (USIE) web site, by phone or by fax. Member States (and a few non-Member States) have nominated competent authorities and National Warning Points who are able to receive, convey and quickly provide authoritative information on incidents and emergencies

  7. Emergency preparedness and response to 'Not-in-a-Facility' radiological accidents

    International Nuclear Information System (INIS)

    Grlicarev, Igor

    2008-01-01

    The paper provides an overview of lessons learned from the past radiological accidents, which have not occurred in an operating facility, i.e. 'not-in-a-facility' radiological emergencies. A method to analyze status of prevention of accidents is proposed taking into account the experiences and findings from the past events. The main emergency planning items are discussed, which would render effective response in case of such emergencies. Although the IAEA has published many documents about establishing an adequate emergency response capability, it is not an easy task to bring these recommendations into life. This paper gives some hints how to overcome the most obvious difficulties while users of these documents trying to adapt the guidance to their own needs. The special cases of alpha emitters and radiological dispersal devices were considered separately. The balanced approach to emergency response is promoted throughout the text, which means that a level of preparedness should be commensurate to the threat and the existing resources should be used to the extent possible. (author)

  8. Emergency planning and preparedness for accidents involving radioactive materials used in medicine, industry, research and teaching

    International Nuclear Information System (INIS)

    1989-01-01

    This Safety Series book should be considered as a technical guide aimed at the users of radioactive materials and the appropriate local and national authorities. It does not represent a single solution to the problems involved but rather draws the outlines of the plans and procedures that have to be developed in order to mitigate the consequences of an accident, should one occur. The preparation of local and national plans should follow the technical recommendations provided in this publication, with due consideration given to local factors which might vary from country to country (e.g. governmental systems, local legislation, quantities of radioactive materials involved). Several types of accidents are described, together with their possible radiological consequences. The basic principles of the protective measures that should be applied are discussed, and the principles of emergency planning and the measures needed to maintain preparedness for an operational response to an accident are outlined

  9. The national radiological emergency preparedness and response plan in the Philippines

    International Nuclear Information System (INIS)

    Valdezco, Eulinia Mendoza

    2007-01-01

    The use of radiation sources of various types and activities is now widespread in the fields of industry, medicine, research and education in the Philippines. These radiation sources have been under the regulatory control of the Philippine Nuclear Research Institute (PNRI) to ensure that these materials are used in a safe manner and stored in a safe and secure location, and that those which have exceeded their useful life are appropriately disposed of. And while the safety record of the nuclear industry remains admirable compared to other industries, the occurrence of an accident affecting members of the public is always a possibility but with very low probability. In 2001, the National Disaster Coordinating Council (NDCC) approved the revised National Radiological Emergency Preparedness and Response Plan (RADPLAN). This plan outlines the activities and organizations necessary to mitigate the effects of nuclear emergencies or radiation related accidents. An important component of this plan is the education of the public as well as the emergency responders such as the police authorities fire emergency personnel, medical responders, community leaders and the general public. The threat of nuclear terrorism as an aftermath of the September 11 incident in the United States has also been considered in the latest revision of this document. (author)

  10. Superstorm Sandy: Emergency management staff perceptions of impact and recommendations for future preparedness, New York State.

    Science.gov (United States)

    Yanson, Adam; Hilts, Asante Shipp; Mack, Stephanie; Eidson, Millicent; Nguyen, Trang; Birkhead, Guthrie

    This study collected and summarized feedback from staff at the New York State (NYS) Office of Emergency Management (OEM) and three county OEMs within NYS to understand lessons learned from the 2012 Superstorm Sandy. Cross-sectional qualitative and quantitative analysis. One staff person from each identified critical role from the state and county OEMs who were still employed in the roles identified. In-person interviews in 2014 followed by an anonymous survey in 2015 examined the response strengths, challenges, and recommendations using federally and study-defined Public Health Preparedness Capabilities. Quantitative analysis of staff survey ratings was used to summarize perceptions of interagency collaboration, communication effectiveness, and differences by staff position. Response rates were 78 percent for interviews (n = 7) and 45 percent for surveys (n = 36). In interviews, "emergency operations coordination" was cited most frequently (48 percent), specifically for successful interagency coordination. "Emergency operations coordination" was also cited most among challenges (45 percent), with emphasis on problems with uniformity of software systems across agencies. Survey responses indicated that "volunteer management" (50 percent) and the "safety and health of responders" (40 percent) were frequently reported as challenges. Additionally, 38 percent of OEM staff reported that situation reports submitted by health departments need improvement. Recommendations from OEM staff included "emergency operations coordination" (36 percent) such as sharing of resources and "training" (16 percent) including hospital evacuation training. Analysis of OEM staff feedback identified specific challenges, and concrete recommendations were made to improve response going forward.

  11. Identifying and tracking plumes affected by an ocean breeze in support of emergency preparedness

    International Nuclear Information System (INIS)

    Schwartz, P.E.

    1989-01-01

    To better support emergency preparedness, General Public Utilities (GPU) Nuclear has investigated the frequency of occurrence of the mesoscale ocean breeze at the Oyster Creek Nuclear Generating Station (OCNGS). Through the analysis of the horizontal wind direction and temperature patterns, simple identification of the ocean breeze along with a plume tracking procedure has been developed and incorporated into the site's emergency plant to better safeguard the public with sophisticated protective action measures in case of a nonroutine release. The ocean breeze will frequently produce wind trajectory fields within the plant's emergency planning zone that are different from the normal gradient wind flow. This could greatly alter proper protective action measures since most utilities employ straight-line trajectory air dispersion models. Knowledge of the existence of the ocean breeze and the location of the ocean breeze front become important in the results generated from the straight-line Gaussian dose calculation methodology and in the further development of a more complex dose assessment model. This paper describes the verification and existence of the sea breeze phenomenon and the incorporation of its effects into the OCNGS emergency plan

  12. Development of national level preparedness for response to nuclear and radiological emergencies

    International Nuclear Information System (INIS)

    Pradeepkumar, K.S.

    2014-01-01

    In India, DAE being the nodal agency for technical support for response to any radiation emergency nuclear disaster and various nuclear and radiological emergency scenarios and their impacts are identified. To reduce their consequences development of methodologies for detection and quick impact assessment, trained First Responders and Quick Response Teams (QRTs), twenty two DAE Emergency Response Centers, mobile and aerial radiation monitoring systems, aerial and ground based validation trials etc. are carried out. Study related to radiological threats and simulated RDD experiments conducted using stable isotopes indicates that radiation levels for distances more than 50 m will not be very high as hotspots may be restricted to nearby area. The biggest challenge from an RDD explosion will be handling of the radioactive contamination and 'fear factor' compared to radiation exposure to public or First Responders. Level and pattern of radioactive contamination on ground following releases during nuclear accidents and minimum strength of orphan radioactive sources to be detected are taken into account for optimizing systems and monitoring methodology required for emergency preparedness

  13. An Examination of Hurricane Emergency Preparedness Planning at Institutions of Higher Learning of the Gulf South Region Post Hurricane Katrina

    Science.gov (United States)

    Ventura, Caterina Gulli

    2010-01-01

    The purpose of the study was to examine hurricane emergency preparedness planning at institutions of higher learning of the Gulf South region following Hurricane Katrina. The problem addressed the impact of Hurricane Katrina on decision-making and policy planning processes. The focus was on individuals that administer the hurricane emergency…

  14. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme, Training Materials

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of these training materials is to provide a practical tool for emergency planning for a State embarking on a nuclear power programme, and to fulfil, in part, functions assigned to the IAEA under the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the Assistance Convention). Under Article 5.a(ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. One of the concerns associated with nuclear power is the possibility that a State embarking on a nuclear power programme might not have sufficient capabilities and therefore would not be adequately prepared to respond to a radiation emergency caused by severe accident conditions. Protecting the public, the environment and property in the event of a failure of any level of defence in depth is the most important safety objective. A robust framework for emergency preparedness and response to a radiation emergency forms the last level of defence in depth and, as such, must be developed and implemented by any State embarking on a nuclear power programme, using best international practices. The establishment of capabilities and arrangements for emergency preparedness and response to severe accident conditions is one of the principal tasks in the development of a national infrastructure for nuclear power. State of the art emergency preparedness and response is a key element in achieving overall plant safety. This training course complements the IAEA publication 'Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme' (EPR-Embarking 2012). These materials are designed to help States apply the guidance in EPR-Embarking 2012, in order to develop the capability to adequately prepare for and respond to a radiation emergency after the commissioning and start of

  15. Numerical models and their role in emergency response: a perspective on dispersion modeling for emergency preparedness

    International Nuclear Information System (INIS)

    Greenly, G.D.; Dickerson, M.H.

    1983-03-01

    Numerical models on several levels of complexity should be available to the emergency response planner. They are a basic tool but must be used in conjunction with both measurements and experience. When these tools are used in a complimentary fashion they greatly enhance the capability of the consequence manager to respond in an emergency situation. Because each accident or incident develops it's own characteristics and requirements the system must be capable of a flexible response. Interaction and feedback between model results from a suite of models and measurements (including airborne measurements) serve the emergency response planner's spectrum of needs, ranging from planning exercises and emergency precalculations to a real-time emergency response

  16. Joint radiation emergency management plan of the international organizations. Emergency preparedness and response. Date effective: 1 January 2007

    International Nuclear Information System (INIS)

    2007-01-01

    The Convention on Early Notification of a Nuclear Accident (the 'Early Notification Convention') and the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the 'Assistance Convention') are the prime legal instruments that establish an international framework to facilitate the exchange of information and the prompt provision of assistance in the event of a nuclear accident or radiological emergency, with the aim of minimizing the consequences. The International Atomic Energy Agency (IAEA) has specific functions assigned to it under these Conventions, to which, in addition to a number of States, the European Union (EURATOM), the World Health Organization (WHO), the World Meteorological Organization (WMO) and the Food and Agriculture Organization of the United Nations (FAO) are full Parties. Since 1989, the arrangements between these organizations for facilitating the practical implementation of those articles of the two Conventions that are operational in nature have been documented by the IAEA in the Emergency Notification and Assistance Technical Operations Manual (ENATOM)1. The manual is intended for use primarily by contact points as identified in the Conventions. Pursuant to the obligations placed on it by the Conventions, the IAEA regularly convenes the Inter-Agency Committee on Response to Nuclear Accidents (IACRNA)2, whose purpose is to co-ordinate the arrangements of the relevant international intergovernmental organizations ('international organizations') for preparing for and responding to nuclear or radiological emergencies. Although the Conventions assign specific response functions and responsibilities to the IAEA and the Parties, various international organizations have - by virtue of their statutory functions or of related legal instruments - general functions and responsibilities that encompass aspects of preparedness and response. Moreover, some regional organizations (e.g. the European Union) are party to legally

  17. Implementation of new policy and principles of harmonisation of nuclear emergency preparedness in conditions of emergency Response Centre of the Nuclear Regulatory Authority of the Slovak Republic

    International Nuclear Information System (INIS)

    Janko, K.; Zatlkajova, H.; Sladek, V.

    2003-01-01

    With respect to Chernobyl accident the changes in understanding of nuclear emergency preparedness have initiated a developing process resulting in an effective enhancement of conditions ensuring adequate response to nuclear or radiological accidents of emergency situations in many countries. The Slovak Nuclear Regulatory Authority (UJD) in frame of co-operations with IAEA, EC, OECD/NEA and other international organisations has actively participated in this challenging work targeting implementation of international experience and best practices in the country. The new international policy (principles declared e.g. in 'Memorandum of Understanding', IAEA, Vienna, 1997) based on experiences propagating importance of regional co-operation, harmonised approach and clear strategy for protective measures implementation in case of a nuclear or radiological accident has influenced the development also in Slovakia. The implementation process in the country was supported by changes in legal conditions regulating peaceful use of nuclear energy [1,2] including basic rules for emergency preparedness published in the second half of 1990 years. The principles of emergency preparedness in Slovakia fully support regional harmonisation and co-operation. Effective implementation of international practice and sharing of experience substantially contributed to the level of emergency response in the country and to the harmonisation of emergency response preparedness creating also conditions for an efficient regional integration. (authors)

  18. The IAEAs incident and emergency centre: the global focal point for nuclear and radiological emergency preparedness and response

    Energy Technology Data Exchange (ETDEWEB)

    Buglova, E.

    2016-08-01

    The continuous use of nuclear power to generate electricity and the continued threat of radioactive materials being used for nefarious reasons reminds us of the importance to stay prepared to respond to nuclear or radiological emergencies. Stringent nuclear safety and nuclear security requirements, the training of personnel, operational checks and legal frameworks cannot always prevent radiation-related emergencies. Though these events can range in severity, each has the potential to cause harm to the public, employees, patients, property and the environment. Until the Chernobyl nuclear accident in 1986, there was no international information exchange system. Immediately following that accident, the international community negotiated the so-called Emergency Conventions to ensure that the country suffering an accident with an international transboundary release of radioactive material would issue timely, authenticated information, while the States that could field technical support, would do so in a coordinated fashion. The Conventions also place specific legal obligations on the International Atomic energy Agency (IAEA) with regard to emergency preparedness and response. (Author)

  19. Quality assurance and assessment of preparedness at DAE-ERCs for handling radiological emergencies in public domain

    International Nuclear Information System (INIS)

    Sharma, R.; Murali, S.; Singh, Rajvir; Pradeepkumar, K.S.

    2014-01-01

    The radiological emergencies are very rare in occurrence the mechanism to improve the preparedness can be ensured through conducting mock exercises/drills. Emergency kit comprises of adequate number of radiation monitoring equipments and PPEs required for response is kept in readiness at ERC. There is a need of training modules on radiological emergencies for all stake holders e.g. district officials, Local Police, Medical professionals and National Disaster Response Force (NDRF) to improve the knowledge and response capability. The adaptability to situations is important for ERTs based on the lessons learned from emergency at Mayapuri, Delhi. The role and responsibility of different agencies have been identified and drafted in the preparedness plan to meet the challenges during response

  20. Guidance Manual for preparing Nuclear and Radiological Emergency Preparedness and Response Plan

    Energy Technology Data Exchange (ETDEWEB)

    Muhammed, Kabiru [Korea Advanced Institute of Science and Technology, Daejeon (Korea, Republic of); Jeong, Seung-Young [Korea Institute of Nuclear Safety, Daejeon (Korea, Republic of)

    2014-10-15

    The Nuclear and Radiological Emergency Preparedness and Response Plan(NREPRP) describes the capabilities, responsibilities and authorities of government agencies and a conceptual basis for integrating the activities of these agencies to protect public health and safety. The NREPRP addresses issues related to actual or perceived radiation hazard requiring a national response in order to: i. Provide co-ordination of a response involving multi-jurisdictions or significant national responsibilities; or ii. Provide national support to state and local governments. The objective of this research is to establish Guidance Manual for preparing a timely, organized and coordinated emergency response plan for Authorities/agencies to promptly and adequately determine and take actions to protect members of the public and emergency workers. The manual will not provide sufficient details for an adequate response. This level of details is contained in standard operating procedures that are being developed based on the plan developed. Base on the data obtain from integrated planning levels and responsibility sharing, the legal document of major government agencies participating in NREPRP form the legal basis for the response plan. Also the following documents should be some international legal binding documents. Base on the international safety requirement and some countries well developed NREPRP, we have drafted a guidance manual for new comer countries for easy development of their countries NREPRP. Also we have taken in to consideration lessons learn from most accident especially Fukushima accident.

  1. Guidance Manual for preparing Nuclear and Radiological Emergency Preparedness and Response Plan

    International Nuclear Information System (INIS)

    Muhammed, Kabiru; Jeong, Seung-Young

    2014-01-01

    The Nuclear and Radiological Emergency Preparedness and Response Plan(NREPRP) describes the capabilities, responsibilities and authorities of government agencies and a conceptual basis for integrating the activities of these agencies to protect public health and safety. The NREPRP addresses issues related to actual or perceived radiation hazard requiring a national response in order to: i. Provide co-ordination of a response involving multi-jurisdictions or significant national responsibilities; or ii. Provide national support to state and local governments. The objective of this research is to establish Guidance Manual for preparing a timely, organized and coordinated emergency response plan for Authorities/agencies to promptly and adequately determine and take actions to protect members of the public and emergency workers. The manual will not provide sufficient details for an adequate response. This level of details is contained in standard operating procedures that are being developed based on the plan developed. Base on the data obtain from integrated planning levels and responsibility sharing, the legal document of major government agencies participating in NREPRP form the legal basis for the response plan. Also the following documents should be some international legal binding documents. Base on the international safety requirement and some countries well developed NREPRP, we have drafted a guidance manual for new comer countries for easy development of their countries NREPRP. Also we have taken in to consideration lessons learn from most accident especially Fukushima accident

  2. Investigation of nuclear safety regulation and emergency preparedness for other countries

    Energy Technology Data Exchange (ETDEWEB)

    Uematsu, Hitoshi; Kakuta, Akio; Yasuda, Makoto [Japan Nuclear Energy Safety Organization, Policy Planning and Coordination Department, Tokyo (Japan); Funahashi, Toshihiro [Japan Nuclear Energy Safety Organization, Nuclear Emergency Response and Prepardness Department, Tokyo (Japan)

    2012-10-15

    This investigation was carried out on organization and a role of nuclear regulatory body in the U.S., France, Germany, the U.K., Korea and Canada. In addition, nuclear emergency preparedness in these countries was investigated. A summary of this investigation is shown below. The Nuclear Regulatory Commission in the U.S. and the Nuclear Safety Authority in France have respectively headquarters and regional offices. The Nuclear Regulatory Commission has 4 regional offices and the Nuclear Safety Authority has 11 regional office. These regional offices are responsible primarily for the inspection of nuclear facilities. In Germany, the Federal Ministry of the Environment has delegated its regulatory authority to state governments, and the relevant department of each state government is in charge of inspection, oversight and approval of nuclear installations. In addition, in Korea, the U.S., and the U.K., the resident inspectors placed in each nuclear facility have the directed nuclear facilities. Meanwhile, Korea had changed its nuclear regulatory regime during this study period. The Nuclear Safety and Security Commission was newly established and took over from the Nuclear Safety Division of the Ministry of Education, Science and Technology. Regarding nuclear emergency preparedness system, it is secured that the public will be protected at the national level. And also the responding scheme and roles of regulatory agencies, operators, and the relevant ministries and agencies are identified. In addition, the licensee's responsibilities are defined. In France, existing organizations such as government organizations, governor who is appointed by the government and licensees respond to nuclear emergency. In Korea and the U.K., an emergency organization which consists of existing organizations are established and coped with nuclear emergency. In the U.S., Germany and Canada that have a federal system, the roles of state governments and the federal government are identified

  3. Radiological and nuclear emergency preparedness and response. How well are we prepared?; Radiologischer und nuklearer Notfallschutz. Wie gut sind wir vorbereitet?

    Energy Technology Data Exchange (ETDEWEB)

    Geick, Gunther H.G. [Dataport, Altenholz (Germany); Herrmann, Andre R. [HERRMANN Consultant, Basel (Switzerland); Koch, Doris [Ministerium fuer Justiz, Gleichstellung und Integration, Kiel (Germany); Meisenberg, Oliver [Helmholtz Zentrum Muenchen Deutsches Forschungszentrum fuer Gesundheit und Umwelt GmbH, Neuherberg (Germany); Rauber, Dominique [Bundesamt fuer Bevoelkerungsschutz (BABS), Zuerich (CH). Eidgenoessisches Dept. fuer Verteidigung, Bevoelkerungsschutz und Sport (VBS); Stuerm, Rolf P. [SafPro AG, Basel (Switzerland); Weiss, Wolfgang [Bundesamt fuer Strahlenschutz, Salzgitter (Germany); Miska, Horst; Schoenhacker, Stefan

    2011-07-01

    The contributions to this topic are dealing, in a broad overview, with important aspects of Nuclear Emergency Preparedness and Response, like the influence of the new ICRP recommendations number 103 and number 109 on emergency preparedness and on planning for response, possible problems in installing and operating emergency care centres, experience from exercises as well as the training of response personnel in Austria and Germany. Finally, measures in emergency preparedness with regard to a dirty bomb attack are reported by means of an INEX-4-exercise in Switzerland. (orig.)

  4. Development and application of the PCC biodosimetry method in emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Stricklin, D. (Swedish Defence Research Agency, FOI (Sweden)); Lindholm, C. (Finnish Radiation and Nuclear Safety Authority, STUK (Finland)); Jaworska, A. (Norwegian Radiation Protection Authority, NRPA (Norway))

    2008-07-15

    A method for biological assessment of radiation dose for specific application in emergency preparedness was developed. Premature chromosome condensation (PCC) was investigated to provide a potentially faster means of analysis and the ability to assess higher doses than with the dicentric assay which is routinely applied in biodosimetry today. A review of existing methods was made, followed by experiments determine optimal assay conditions, and evaluations to determination of optimal conditions and the most appropriate endpoints for analyses. Twelve different experimental conditions were examined with four different evaluation approaches. Aspects during optimization such as practicality, speed, and reliability were considered. The conclusion from these studies was a PCC protocol utilizing okadaic acid for induction of PCC cells in stimulated lymphocytes but without the use of colcemid for metaphase arrest with the subsequent evaluation of ring chromosomes. Well-defined criteria were established for evaluation of PCC cells and ring chromosome aberrations. An inter-calibration was made by comparing assessment of ring chromosomes between all three laboratories. Agreement was made to count only rings with observable open spaces or large, obvious rings without open spaces. Finally a dose response curve for the PCC method was prepared and a comparison of the PCC method to the traditional dicentric assay in triage mode was made. The triage method requires a minimal number of evaluations so that categorization of high, medium and low doses may be made in an emergency situation where large numbers of people should be evaluated. The comparison of the PCC method with the dicentric assay triage method indicated that the PCC assay performed superior to the dicentric assay for evaluation of samples at higher doses, however, the dicentric assay appeared to provide more accurate dose assessment at lower doses. This project suggests a PCC assay method for biological dose estimates

  5. Online Decision Support System (IRODOS) - an emergency preparedness tool for handling offsite nuclear emergency

    International Nuclear Information System (INIS)

    Vinod Kumar, A.; Oza, R.B.; Chaudhury, P.; Suri, M.; Saindane, S.; Singh, K.D.; Bhargava, P.; Sharma, V.K.

    2009-01-01

    A real time online decision support system as a nuclear emergency response system for handling offsite nuclear emergency at the Nuclear Power Plants (NPPs) has been developed by Health, Safety and Environment Group, Bhabha Atomic Research Centre (BARC), Department of Atomic Energy (DAE) under the frame work of 'Indian Real time Online Decision Support System 'IRODOS'. (author)

  6. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme (Russian Edition)

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  7. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme (Arabic Edition)

    International Nuclear Information System (INIS)

    2014-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  8. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme. Publication Date: August 2012

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-09-15

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  9. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme. Publication Date: August 2012

    International Nuclear Information System (INIS)

    2012-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  10. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme (Spanish Edition)

    International Nuclear Information System (INIS)

    2014-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  11. Emergency preparedness for mass gatherings: Lessons of “12.31” stampede in Shanghai Bund

    Directory of Open Access Journals (Sweden)

    Yong-He Dong

    2017-08-01

    Full Text Available According to WHO, one of these mass gatherings with critical risk is stampedes. Shanghai “12.31” stampede was a preventable tragedy that the government and event planner hold responsibility for. At the same time, it can be a legacy for improvement in the future. The government should draw experience on the implementation of an emergency preparedness system, in order to improve the rapid emergency response during mass gatherings in the future.

  12. Resource mapping and emergency preparedness to infectious diseases in human and animal populations in Kibaha and Ngorongoro districts, Tanzania

    OpenAIRE

    E.D. Karimuribo; B. Jones; M.I. Matee; D.M. Kambarage; S. Mounier-Jack; M.M. Rweyemamu

    2012-01-01

    A rapid situation analysis was conducted in Kibaha and Ngorongoro districts in Tanzania to map resources as well as analysing emergency preparedness to infectious diseases in animal (domestic and wild) and human populations. Kibaha was chosen as a district close to a commercial city (Dar es Salaam) while Ngorongoro represented a remote, border district with high interactions between humans, domestic and wild animals. In this study, data on resources and personnel as well as emergency pre...

  13. Promoting public health legal preparedness for emergencies: review of current trends and their relevance in light of the Ebola crisis.

    Science.gov (United States)

    Cohen, Odeya; Feder-Bubis, Paula; Bar-Dayan, Yaron; Adini, Bruria

    2015-01-01

    Public health legal preparedness (PHLP) for emergencies is a core component of the health system response. However, the implementation of health legal preparedness differs between low- and middle-income countries (LMIC) and developed countries. This paper examines recent trends regarding public health legal preparedness for emergencies and discusses its role in the recent Ebola outbreak. A rigorous literature review was conducted using eight electronic databases as well as Google Scholar. The results encompassed peer-reviewed English articles, reports, theses, and position papers dating from 2011 to 2014. Earlier articles concerning regulatory actions were also examined. The importance of PHLP has grown during the past decade and focuses mainly on infection-disease scenarios. Amid LMICs, it mostly refers to application of international regulations, whereas in developed states, it focuses on independent legislation and creation of conditions optimal to promoting an effective emergency management. Among developed countries, the United States' utilisation of health legal preparedness is the most advanced, including the creation of a model comprising four elements: law, competencies, information, and coordination. Only limited research has been conducted in this field to date. Nevertheless, in both developed and developing states, studies that focused on regulations and laws activated in health systems during emergencies, identified inconsistency and incoherence. The Ebola outbreak plaguing West Africa since 2014 has global implications, challenges and paralleling results, that were identified in this review. The review has shown the need to broaden international regulations, to deepen reciprocity between countries, and to consider LMICs health capacities, in order to strengthen the national health security. Adopting elements of the health legal preparedness model is recommended.

  14. Promoting public health legal preparedness for emergencies: review of current trends and their relevance in light of the Ebola crisis

    Directory of Open Access Journals (Sweden)

    Odeya Cohen

    2015-10-01

    Full Text Available Background: Public health legal preparedness (PHLP for emergencies is a core component of the health system response. However, the implementation of health legal preparedness differs between low- and middle-income countries (LMIC and developed countries. Objective: This paper examines recent trends regarding public health legal preparedness for emergencies and discusses its role in the recent Ebola outbreak. Design: A rigorous literature review was conducted using eight electronic databases as well as Google Scholar. The results encompassed peer-reviewed English articles, reports, theses, and position papers dating from 2011 to 2014. Earlier articles concerning regulatory actions were also examined. Results: The importance of PHLP has grown during the past decade and focuses mainly on infection–disease scenarios. Amid LMICs, it mostly refers to application of international regulations, whereas in developed states, it focuses on independent legislation and creation of conditions optimal to promoting an effective emergency management. Among developed countries, the United States’ utilisation of health legal preparedness is the most advanced, including the creation of a model comprising four elements: law, competencies, information, and coordination. Only limited research has been conducted in this field to date. Nevertheless, in both developed and developing states, studies that focused on regulations and laws activated in health systems during emergencies, identified inconsistency and incoherence. The Ebola outbreak plaguing West Africa since 2014 has global implications, challenges and paralleling results, that were identified in this review. Conclusions: The review has shown the need to broaden international regulations, to deepen reciprocity between countries, and to consider LMICs health capacities, in order to strengthen the national health security. Adopting elements of the health legal preparedness model is recommended.

  15. Promoting public health legal preparedness for emergencies: review of current trends and their relevance in light of the Ebola crisis

    Science.gov (United States)

    Cohen, Odeya; Feder-Bubis, Paula; Bar-Dayan, Yaron; Adini, Bruria

    2015-01-01

    Background Public health legal preparedness (PHLP) for emergencies is a core component of the health system response. However, the implementation of health legal preparedness differs between low- and middle-income countries (LMIC) and developed countries. Objective This paper examines recent trends regarding public health legal preparedness for emergencies and discusses its role in the recent Ebola outbreak. Design A rigorous literature review was conducted using eight electronic databases as well as Google Scholar. The results encompassed peer-reviewed English articles, reports, theses, and position papers dating from 2011 to 2014. Earlier articles concerning regulatory actions were also examined. Results The importance of PHLP has grown during the past decade and focuses mainly on infection–disease scenarios. Amid LMICs, it mostly refers to application of international regulations, whereas in developed states, it focuses on independent legislation and creation of conditions optimal to promoting an effective emergency management. Among developed countries, the United States’ utilisation of health legal preparedness is the most advanced, including the creation of a model comprising four elements: law, competencies, information, and coordination. Only limited research has been conducted in this field to date. Nevertheless, in both developed and developing states, studies that focused on regulations and laws activated in health systems during emergencies, identified inconsistency and incoherence. The Ebola outbreak plaguing West Africa since 2014 has global implications, challenges and paralleling results, that were identified in this review. Conclusions The review has shown the need to broaden international regulations, to deepen reciprocity between countries, and to consider LMICs health capacities, in order to strengthen the national health security. Adopting elements of the health legal preparedness model is recommended. PMID:26449204

  16. IAEA emergency response network ERNET. Emergency preparedness and response. Date effective: 1 December 2002

    International Nuclear Information System (INIS)

    2003-04-01

    The Parties to the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency have undertaken to co-operate among themselves and with the IAEA in facilitating the prompt provision of assistance in the event of a nuclear accident or radiological emergency, and in minimizing the consequences and in protecting life, property and the environment from the effects of any radioactive releases. As part of the IAEA strategy for supporting such co-operation, the Secretariat of the IAEA is establishing a global Emergency Response Network (ERNET) of teams suitably qualified to respond rapidly, on a regional basis, to nuclear accidents or radiological emergencies. This manual sets out the criteria and requirements to be met by ERNET teams. It is intended for use by institutions in Member States in developing, applying and maintaining their emergency response capabilities and in implementing quality assurance programmes within the context of ERNET. The manual is worded on the assumption that a State Competent Authority designated as the body responsible for reacting to nuclear accidents or radiological emergencies which occur outside the jurisdiction of that State will be the State Contact Point for receiving requests for assistance from the IAEA under the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency

  17. IAEA emergency response network ERNET. Emergency preparedness and response. Date effective: 1 December 2000

    International Nuclear Information System (INIS)

    2000-12-01

    The Parties to the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency have undertaken to co-operate among themselves and with the IAEA in facilitating the prompt provision of assistance in the event of a nuclear accident or radiological emergency, and in minimizing the consequences and in protecting life, property and the environment from the effects of any radioactive releases. As part of the IAEA strategy for supporting such co-operation, the Secretariat of the IAEA is establishing a global Emergency Response Network (ERNET) of teams suitably qualified to respond rapidly, on a regional basis, to nuclear accidents or radiological emergencies. This manual sets out the criteria and requirements to be met by ERNET teams. It is intended for use by institutions in Member States in developing, applying and maintaining their emergency response capabilities and in implementing quality assurance programmes within the context of ERNET. The manual is worded on the assumption that a State Competent Authority designated as the body responsible for reacting to nuclear accidents or radiological emergencies which occur outside the jurisdiction of that State will be the State Contact Point for receiving requests for assistance from the IAEA under the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency

  18. Emergency preparedness exercise ''Posavje 82'' in support of the Krsko Nuclear Power Plant, Krsko, Yugoslavia

    International Nuclear Information System (INIS)

    Collins, H.E.; Emmerson, B.W.

    1983-06-01

    In October 1982, the Yugoslavian Government requested the Agency's assistance in observing and evaluating an emergency preparedness exercise (code named ''POSAVJE 82'') on 5 and 6 November 1982, to test emergency plans and arrangements supportive of the KRSKO Nuclear Power Plant. The Krsko Nuclear Power Plant is a single unit pressurized water reactor of United States (Westinghouse) design rated at 664 MWe (Gross) and is located at Krsko, Socialist Republic of Slovenia, Yugoslavia. This assistance was provided by sending a Special Assistance Mission team of experts under the general provisions of the Agency's circular letter SC/651-3 of 7 April 1981 to Member States which offered such assistance upon request. This mission was a follow-up to a previous mission requested by the Yugoslavian Government which was conducted 24 June - 1 July 1981. At that time, the mission consisted of examining the then existing arrangements for emergency planning in support of the KRSKO Nuclear Power Plant at the National, Republic, local and nuclear power plant levels and discussing with Yugoslavian authorities criteria for emergency plan development and improvement. As a result of this 1981 mission, a ''Report to the Goverment of Yugoslavia'' (IAEA TA Report 1827 of 17 September 1981) was transmitted to the Yugoslavian Government. This report set forth a number of recommendations for improving and further developing the various emergency plans and arrangements for the KRSKO Nuclear Power Plant. A summary of the major recommendations contained in the report is given in Section 2.2. The entire report is listed as Reference 1 of Annex A

  19. An emergency response centre (ERC) for the preparedness and response to nuclear and radiological emergencies

    International Nuclear Information System (INIS)

    Pradeepkumar, K.S.; Sharma, D.N.; Abani, M.C.

    2001-01-01

    This paper discusses the requirement for a state of the art Emergency Response Centre (ERC) to be developed and kept in readiness for the quick response to any nuclear or radiological emergencies. For an effective response to any major nuclear emergency an ERC having the facilities of i) environmental dose rate monitoring network established using both mobile and fixed units ii) on-line meteorological data collection and information station iii) on-line computation and prediction of isodose curves in real time and iv) properly developed and tested monitoring methodologies are essential. Vehicles with on-line data transfer facility to the ERC and equipped with different type of monitoring systems can function as Mobile Monitoring Laboratories (MMLs) and can help in quick decision making even during a radiological emergency far away from the ERC. (author)

  20. The preparedness of schools to respond to emergencies in children: a national survey of school nurses.

    Science.gov (United States)

    Olympia, Robert P; Wan, Eric; Avner, Jeffrey R

    2005-12-01

    Because children spend a significant proportion of their day in school, pediatric emergencies such as the exacerbation of medical conditions, behavioral crises, and accidental/intentional injuries are likely to occur. Recently, both the American Academy of Pediatrics and the American Heart Association have published guidelines stressing the need for school leaders to establish emergency-response plans to deal with life-threatening medical emergencies in children. The goals include developing an efficient and effective campus-wide communication system for each school with local emergency medical services (EMS); establishing and practicing a medical emergency-response plan (MERP) involving school nurses, physicians, athletic trainers, and the EMS system; identifying students at risk for life-threatening emergencies and ensuring the presence of individual emergency care plans; training staff and students in first aid and cardiopulmonary resuscitation (CPR); equipping the school for potential life-threatening emergencies; and implementing lay rescuer automated external defibrillator (AED) programs. The objective of this study was to use published guidelines by the American Academy of Pediatrics and the American Heart Association to examine the preparedness of schools to respond to pediatric emergencies, including those involving children with special care needs, and potential mass disasters. A 2-part questionnaire was mailed to 1000 randomly selected members of the National Association of School Nurses. The first part included 20 questions focusing on: (1) the clinical background of the school nurse (highest level of education, years practicing as a school health provider, CPR training); (2) demographic features of the school (student attendance, grades represented, inner-city or rural/suburban setting, private or public funding, presence of children with special needs); (3) self-reported frequency of medical and psychiatric emergencies (most common reported school

  1. Emergency nurses’ perceptions of emergency department preparedness for an ebola outbreak: a qualitative descriptive study

    OpenAIRE

    Pincha Baduge, Mihirika Surangi De Silva

    2017-01-01

    Introduction: Ebola Virus Disease (EVD) is a highly contagious disease with a high mortality rate. The 2014 outbreak in West Africa grew uncontrollably, and on the 8th August 2014, the World Health Organization (WHO) declared the outbreak as a public health emergency of international concern. Emergency Departments (ED) in Australian health services commenced preparation and vigilance for people presenting with EVD like symptoms, so that any spread of the disease could be prevented. Researc...

  2. Atmospheric release advisory capability pilot project at two nuclear power plants and associated state offices of emergency preparedness. Final report

    International Nuclear Information System (INIS)

    Rosen, L.C.

    1983-01-01

    A project to demonstrate the feasibility of utilizing Atmospheric Release Advisory Capability (ARAC) limited service with commercial nuclear power plants and their associated state offices of emergency preparedness is discussed. Preliminary planning, installation and testing of the ARAC site facilities at Indian Point Nucler Power Station, New York State; at New York State Office of Emergency Preparedness, Albany, New York; at Rancho Seco Nuclear Generating Station, California; and at the State of California Office of Emergency Services, Sacramento, California, are summarized. ARAC participation in the Robert E. Ginna nuclear generating plant accident in New York on January 25, 1982, is discussed. The ARAC system is evaluated with emphasis on communications, the suite of models contained within the ARAC system, and the staff. The implications of this project in designing the next-generation ARAC system to service federal and state needs are assessed

  3. Preliminary study on Malaysian Nuclear Agency emergency response and preparedness plan from ICT perspective

    International Nuclear Information System (INIS)

    Amy Hamijah Ab Hamid; Muhd Noor Muhd Yunus; Mohd Ashhar Khalid; Abdul Muin Abdul Rahman; Mohd Yusof Mohd Ali; Mohamad Safuan Sulaiman; Hasfazilah Hassan

    2009-01-01

    Emergency response and preparedness (ERP) is an important components of a safety programme developed for any nuclear research centre or nuclear power plant to ensure that the facility can be operated safely and immediate response and actions can be taken to minimize the risk in case of unplanned events and incidences. ERP inclusion in the safety program has been made compulsory by most of the safety standard systems introduced currently including those of ISO 14000, OSHAS 18001 and IAEA. ERP has been included in the Nuclear Malaysia's Safety Health and Environment Management System (SHE-MS) for similar purpose. The ERP has been developed based on guidelines stipulated by AELB, IAEA, DOSH, Fire Brigade and Police Force, taking into consideration all possible events and incidences that can happen within the laboratories and irradiation facilities as a result of activities carried out by its personnel. This paper briefly describes the overall structure of the Nuclear Malaysia ERP, how it functions and being managed, and a brief historical perspective. However ERP is not easily implemented because of human errors and other weaknesses identified. Some ERP cases are analysed and assessed which based on the challenges, strategies and lessons learned from an ICT (Information and Communication Technology) perspective. Therefore, results of the analysis could then be used as inputs to develop a new system of Decision Support System (DSS) for ERP that is more effective in managing emergencies. This system is to be incorporated into the existing SHE-MS of Nuclear Malaysia. (Author)

  4. Goal-oriented functional tree structure for nuclear power plant emergency preparedness

    International Nuclear Information System (INIS)

    Calabrese, R.V.; Roush, M.L.

    1987-01-01

    Guidelines for development and implementation of emergency response plans do not provide the planner/implementer with an adequate overview of the functions to be achieved or a measure of their relative importance. To provide a framework in which this importance can be recognized, understood and quantified, a logical goal oriented tree structure has been developed which integrates and gives a clear visual representation of the functions required to meet the emergency preparedness objective. The tree considers a spectrum of both high and low probability events which may require mitigation both onsite and offsite. The ultimate objective: to Minimize the Ill Effects of a Nuclear Power Plant Incident is satisfied by functions concerned with prevention and mitigation of human injury and property damage. A complete and detailed structure which specifies the subfunctions and success paths which satisfy these functions has been developed. Institutional activities such as planning, training, procedure development, monitoring and decision making do not enter the tree directly. Instead, the logic structure defines the extent to which these activities must be considered and the information systems and decision models required for successful implementation of the plan. The top structure of the tree is presented and a few branches are considered in detail. The impact of institutional activities, information systems, etc. is discussed. Tree quantification is considered

  5. Use of a life simulator and SPDS for a nuclear plant emergency preparedness exercise

    International Nuclear Information System (INIS)

    Thayer, D.; Anderson, J.; Goldman, S.

    1990-01-01

    This paper reports that in one of the first such efforts in the nuclear industry, Perry Nuclear Power Plant (PNPP) engineered its Control Room Simulator system to provide real-time live scenario data to the PNPP Safety Parameter Display System (SPDS) during its 1989 Nuclear Regulatory Commission (NRC) Evaluated Emergency Preparedness Exercise. A Scenario Team developed realistic scenarios built upon exercise objectives coupled with Simulator capabilities. Free play by participants was an underlying objective of the Scenario Team. For the exercise, the Simulator SPDS was connected via telephone lines and modems to actual SPDS display units in two remote facilities: the Technical Support Center (TSC) and Emergency Operations Facility (EOF). Since the PNPP Simulator does not presently model radiological parameters, radiological data was input separately from plant scenario thermodynamic/mechanical/electrical data. During the exercise, plant operators at the Simulator manipulated plant controls to start/stop components or systems as needed for the exercise conditions. Players in the TSC and EOF were able to see and track plant conditions on a real-time basis

  6. Cytogenetic Dosimetry: Applications in Preparedness for and Response to Radiation Emergencies - Training Materials

    International Nuclear Information System (INIS)

    2013-01-01

    These materials are designed for use at a four day training course on the application of cytogenetic dosimetry in preparedness for and response to radiation emergencies. They contain information on: (1) Basics of biological effects of ionizing radiation: Parts 1+2; (2) Basics of dosimetry; (3) dicentric assay; (4) Retrospective dosimetry by translocation analysis; (5) Premature chromosome condensation analysis; (6) Cytokinesis block micronucleus assay; (7) Applied statistics for biodosimetry; (8) Automatic analysis of chromosomal assays; (9) Biodosimetry in mass casualty events; (10) Safety of laboratory staff and quality programmes; (11) Examples of accident investigations; (12) Cytogenetic dose estimation in the criticality accident in Tokaimura; (13) Radiological accidents in Latin America; (14) Radiological accidents in Georgia. Additionally, the CD contains two working sessions with the reference materials for use and a standard training programme. This training course consists of lectures and work sessions that can easily be utilized by a State to build a basic capability in biodosimetry application in a nuclear or radiological emergency

  7. Development of Operational Safety Monitoring System and Emergency Preparedness Advisory System for CANDU Reactors (I)

    International Nuclear Information System (INIS)

    Kim, Ma Woong; Shin, Hyeong Ki; Lee, Sang Kyu; Kim, Hyun Koon; Yoo, Kun Joong; Ryu, Yong Ho; Son, Han Seong; Song, Deok Yong

    2007-01-01

    As increase of operating nuclear power plants, an accident monitoring system is essential to ensure the operational safety of nuclear power plant. Thus, KINS has developed the Computerized Advisory System for a Radiological Emergency (CARE) system to monitor the operating status of nuclear power plant continuously. However, during the accidents or/and incidents some parameters could not be provided from the process computer of nuclear power plant to the CARE system due to limitation of To enhance the CARE system more effective for CANDU reactors, there is a need to provide complement the feature of the CARE in such a way to providing the operating parameters using to using safety analysis tool such as CANDU Integrated Safety Analysis System (CISAS) for CANDU reactors. In this study, to enhance the safety monitoring measurement two computerized systems such as a CANDU Operational Safety Monitoring System (COSMOS) and prototype of CANDU Emergency Preparedness Advisory System (CEPAS) are developed. This study introduces the two integrated safety monitoring system using the R and D products of the national mid- and long-term R and D such as CISAS and ISSAC code

  8. Study on Korean Radiological Emergency System-Care System- and National Nuclear Emergency Preparedness System Development

    International Nuclear Information System (INIS)

    Akhmad Khusyairi; Yudi Pramono

    2008-01-01

    Care system; Radiological Emergency Supporting System. Environmental radiology level is the main aspect that should be concerned deal with the utilization of nuclear energy. The usage of informational technology in nuclear area gives significant contribution to anticipate and to protect human and environment. Since 1960, South Korea has developed environment monitoring system as the effort to protect the human and environment in the radiological emergency condition. Indonesia has possessed several nuclear installations and planned to build and operate nuclear power plants (PLTN) in the future. Therefore, Indonesia has to prepare the integrated system, technically enables to overcome the radiological emergency. Learning from the practice in South Korea, the system on the radiological emergency should be prepared and applied in Indonesia. However, the government regulation draft on National Radiological Emergency System, under construction, only touches the management aspect, not the technical matters. Consequently, when the regulation is implemented, it will need an additional regulation on technical aspect including the consideration on the system (TSS), the organization of operator and the preparation of human resources development of involved institution. For that purpose, BAPETEN should have a typical independence system in regulatory frame work. (author)

  9. Public Health System Research in Public Health Emergency Preparedness in the United States (2009-2015): Actionable Knowledge Base.

    Science.gov (United States)

    Savoia, Elena; Lin, Leesa; Bernard, Dottie; Klein, Noah; James, Lyndon P; Guicciardi, Stefano

    2017-09-01

    In 2008, the Institute of Medicine released a letter report identifying 4 research priority areas for public health emergency preparedness in public health system research: (1) enhancing the usefulness of training, (2) improving timely emergency communications, (3) creating and maintaining sustainable response systems, and (4) generating effectiveness criteria and metrics. To (1) identify and characterize public health system research in public health emergency preparedness produced in the United States from 2009 to 2015, (2) synthesize research findings and assess the level of confidence in these findings, and (3) describe the evolution of knowledge production in public health emergency preparedness system research. Search Methods and Selection Criteria. We reviewed and included the titles and abstracts of 1584 articles derived from MEDLINE, EMBASE, and gray literature databases that focused on the organizational or financial aspects of public health emergency preparedness activities and were grounded on empirical studies. We included 156 articles. We appraised the quality of the studies according to the study design. We identified themes during article analysis and summarized overall findings by theme. We determined level of confidence in the findings with the GRADE-CERQual tool. Thirty-one studies provided evidence on how to enhance the usefulness of training. Results demonstrated the utility of drills and exercises to enhance decision-making capabilities and coordination across organizations, the benefit of cross-sector partnerships for successfully implementing training activities, and the value of integrating evaluation methods to support training improvement efforts. Thirty-six studies provided evidence on how to improve timely communications. Results supported the use of communication strategies that address differences in access to information, knowledge, attitudes, and practices across segments of the population as well as evidence on specific

  10. A study on emergency preparedness for nuclear power plant/ Establishment of emergency communication network system

    International Nuclear Information System (INIS)

    Yang, Y. K.; Jung, Y. D.; Kim, S. Y.

    1991-12-01

    The objective of this study was to develop an emergency database search system for nuclear power plants during nuclear incidents / accidents. Image data reported from nuclear power plants to the regulatory body and other related data will be stored systematically in the computer. The data will be utilized during nuclear emergency to prevent the accident from spreading out and to minimize its effect. It will also be used in exchanging information on accident or incidents with the foreign countries. The operational documents in the Kori-4 nuclear power plant are used as the major source for the categorization and analysis in performing this research. It was not easy to access the detailed operational data due to its unique characteric for the security. Therefore, we strongly suggest to increase manpower for this project in Korea Institute of Nuclear Safety (KINS) and archive involvement from Korea Electric Power Company to establish better database retrieval system

  11. A study on emergency preparedness for nuclear power plant/ Establishment of emergency communication network system

    Energy Technology Data Exchange (ETDEWEB)

    Yang, Y K; Jung, Y D; Kim, S Y [Korea Institute of Science and Technology, Seoul (Korea, Republic of)

    1991-12-15

    The objective of this study was to develop an emergency database search system for nuclear power plants during nuclear incidents / accidents. Image data reported from nuclear power plants to the regulatory body and other related data will be stored systematically in the computer. The data will be utilized during nuclear emergency to prevent the accident from spreading out and to minimize its effect. It will also be used in exchanging information on accident or incidents with the foreign countries. The operational documents in the Kori-4 nuclear power plant are used as the major source for the categorization and analysis in performing this research. It was not easy to access the detailed operational data due to its unique characteric for the security. Therefore, we strongly suggest to increase manpower for this project in Korea Institute of Nuclear Safety (KINS) and archive involvement from Korea Electric Power Company to establish better database retrieval system.

  12. NERIS: European platform on preparedness for nuclear and radiological emergency response and recovery

    International Nuclear Information System (INIS)

    Duranova, T.; Bohunova, J.; Schneider, T.; Biduener, S.; Badelay, J.; Gallego, E.; Gering, F.; Hrdeman, F.; Dubreuil, G.; Murith, Ch.; Oughton, D.; Raskob, W.

    2014-01-01

    The NERIS platform was established in June 2010 to encourage European, national, regional and local authorities, technical support organisation, operators, professional organisations, research institutes, universities, and non-governmental organisations to cooperate and to facilitate access expertise and technology in maintaining competence in the field of nuclear emergency management and recovery for the benefit of European countries and citizens. 49 organisations are members of the NERIS Platform from 24 countries and 20 members are supporting organisations. The NERIS Association has been registered in August 2012 as a legal European Association under the French Law. It is operated by a management board of 10 members and the NERIS R and D Committee elaborates its strategic orientation. The NERIS Platform is linked to research projects, managed by KIT: - NERIS TP 'Towards a self sustaining European Technology Platform on Preparedness for Nuclear and Radiological Emergency Response and Recovery'. - PREPARE project on innovative integrative tools and platforms to be prepared for radiological emergencies and post-accident response in Europe. To set up a common reflection, cooperation have been established with European and international organisations: HERCA, ALLIANCE, CRPPH, ICRP and AIEA. To share issues on lessons learnt from the Fukushima accident, cooperation have been initiated with IGES (Institute for Global Environment Strategies) and with the Fukushima University. The NERIS Platform is also involved in the steering committee of the EC Project OPERRA, aiming at structuring the research in the field of radiation protection at the Horizon 2020. This paper will present the key components of the NERIS Platform and its objectives. (authors)

  13. NERIS: The European platform on preparedness for nuclear and radiological emergency response and recovery

    International Nuclear Information System (INIS)

    Duranova, T.; Bohunova, J.; Schneider, T.; Biduener, S.; Badelay, J.; Gallego, E.; Gering, F.; Hrdeman, F.; Dubreuil, G.; Murith, Ch.; Oughton, D.; Raskob, W.

    2014-01-01

    The NERIS platform was established in June 2010 to encourage European, national, regional and local authorities, technical support organisation, operators, professional organisations, research institutes, universities, and non-governmental organisations to cooperate and to facilitate access expertise and technology in maintaining competence in the field of nuclear emergency management and recovery for the benefit of European countries and citizens. 49 organisations are members of the NERIS Platform from 24 countries and 20 members are supporting organisations. The NERIS Association has been registered in August 2012 as a legal European Association under the French Law. It is operated by a management board of 10 members and the NERIS R and D Committee elaborates its strategic orientation. The NERIS Platform is linked to research projects, managed by KIT: - NERIS TP 'Towards a self sustaining European Technology Platform on Preparedness for Nuclear and Radiological Emergency Response and Recovery'. - PREPARE project on innovative integrative tools and platforms to be prepared for radiological emergencies and post-accident response in Europe. To set up a common reflection, cooperations have been established with European and international organisations: HERCA, ALLIANCE, CRPPH, ICRP and AIEA. To share issues on lessons learnt from the Fukushima accident, cooperation have been initiated with IGES (Institute for Global Environment Strategies) and with the Fukushima University. The NERIS Platform is also involved in the steering committee of the EC Project OPERRA, aiming at structuring the research in the field of radiation protection at the Horizon 2020. This paper will present the key components of the NERIS Platform and its objectives. (authors)

  14. Assessment of disaster preparedness among emergency departments in Italian hospitals: a cautious warning for disaster risk reduction and management capacity.

    Science.gov (United States)

    Paganini, Matteo; Borrelli, Francesco; Cattani, Jonathan; Ragazzoni, Luca; Djalali, Ahmadreza; Carenzo, Luca; Della Corte, Francesco; Burkle, Frederick M Jr; Ingrassia, Pier Luigi

    2016-08-15

    Since the 1990s, Italian hospitals are required to comply with emergency disaster plans known as Emergency Plan for Massive Influx of Casualties. While various studies reveal that hospitals overall suffer from an insufficient preparedness level, the aim of this study was to better determine the preparedness level of Emergency Departments of Italian hospitals by assessing the knowledge-base of emergency physicians regarding basic disaster planning and procedures. A prospective observational study utilized a convenience sample of Italian Emergency Departments identified from the Italian Ministry of Health website. Anonymous telephone interviews were conducted of medical consultants in charge at the time in the respective Emergency Departments, and were structured in 3 parts: (1) general data and demographics, (2) the current disaster plan and (3) protocols and actions of the disaster plan. Eighty-five Emergency Departments met inclusion criteria, and 69 (81 %) agreed to undergo the interview. Only 45 % of participants declared to know what an Emergency Plan for Massive Influx of Casualties is, 41 % believed to know who has the authority to activate the plan, 38 % knew who is in charge of intra-hospital operations. In Part 3 physicians revealed a worrisome inconsistency in critical content knowledge of their answers. Results demonstrate a poor knowledge-base of basic hospital disaster planning concepts by Italian Emergency Department physicians-on-duty. These findings should alert authorities to enhance staff disaster preparedness education, training and follow-up to ensure that these plans are known to all who have responsibility for disaster risk reduction and management capacity.

  15. Method for Developing a Communication Strategy and Plan for a Nuclear or Radiological Emergency. Emergency Preparedness and Response. Publication Date: July 2015

    International Nuclear Information System (INIS)

    2015-08-01

    The aim of this publication is to provide a practical resource for emergency planning in the area of public communication in the development of a radiation emergency communication plan (RECP). The term 'public communication' is defined as any activity that communicates information to the public and the media during a nuclear or radiological emergency. To avoid confusion, the term public communication has been used in this publication rather than public information, which may be used in other IAEA publications and documents to ensure consistency with the terminology used in describing the command and control system. This publication also aims to fulfil in part functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (Assistance Convention), as well as meeting requirements stated in IAEA Safety Standards Series No. GS-R-2, Preparedness and Response for a Nuclear or Radiological Emergency. Under Article 5(a)(11) of the Assistance Convention, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and results of research with regard to the response to nuclear or radiological emergencies. This publication is intended to provide guidance to national and local authorities on developing an RECP which incorporates the specific functions, arrangements and capabilities that will be required for public communication during a nuclear or radiological emergency. The two main features of this publication are the template provided to develop an RECP and detailed guidance on developing a communication strategy for emergency preparedness and response to nuclear or radiological emergencies. The template is consistent with the outline of the national radiation emergency plan proposed in Method for Developing Arrangements for Response to a Nuclear or Radiological Emergency (EPR-Method 2003). This publication is part of the IAEA

  16. Emergency Preparedness in the Workplace: The Flulapalooza Model for Mass Vaccination.

    Science.gov (United States)

    Swift, Melanie D; Aliyu, Muktar H; Byrne, Daniel W; Qian, Keqin; McGown, Paula; Kinman, Patricia O; Hanson, Katherine Louise; Culpepper, Demoyne; Cooley, Tamara J; Yarbrough, Mary I

    2017-09-01

    To explore whether an emergency preparedness structure is a feasible, efficient, and sustainable way for health care organizations to manage mass vaccination events. We used the Hospital Incident Command System to conduct a 1-day annual mass influenza vaccination event at Vanderbilt University Medical Center over 5 successive years (2011-2015). Using continuous quality improvement principles, we assessed whether changes in layout, supply management, staffing, and documentation systems improved efficiency. A total of 66 591 influenza vaccines were administered at 5 annual Flulapalooza events; 13 318 vaccines per event on average. Changes to the physical layout, staffing mix, and documentation processes improved vaccination efficiency 74%, from approximately 38 to 67 vaccines per hour per vaccinator, while reducing overall staffing needs by 38%. An unexpected finding was the role of social media in facilitating active engagement. Health care organizations can use a closed point-of-dispensing model and Hospital Incident Command System to conduct mass vaccination events, and can adopt the "Flulapalooza method" as a best practice model to enhance efficiency.

  17. Air leakage analysis of research reactor HANARO building in typhoon condition for the nuclear emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Lee, Goany Up; Lee, Hae Cho; Kim, Bong Seok; Kim, Jong Soo; Choi, Pyung Kyu [Dept. of Emergency Preparedness, Korea Atomic Energy Research Institute, Daejeon (Korea, Republic of)

    2016-12-15

    To find out the leak characteristic of research reactor 'HANARO' building in a typhoon condition MELCOR code which normally is used to simulate severe accident behavior in a nuclear power plant was used to simulate the leak rate of air and fission products from reactor hall after the shutdown of the ventilation system of HANARO reactor building. For the simulation, HANARO building was designed by MELCOR code and typhoon condition passed through Daejeon in 2012 was applied. It was found that the leak rate is 0.1%·day{sup -1} of air, 0.004%·day{sup -1} of noble gas and 3.7×10{sup -5}%·day{sup -1} of aerosol during typhoon passing. The air leak rate of 0.1%·day can be converted into 1.36 m{sup 3}·hr{sup -1} , but the design leak rate in HANARO safety analysis report was considered as 600 m3·hr{sup -1} under the condition of 20 m·sec{sup -1} wind speed outside of the building by typhoon. Most of fission products during the maximum hypothesis accident at HANARO reactor will be contained in the reactor hall, so the direct radiation by remained fission products in the reactor hall will be the most important factor in designing emergency preparedness for HANARO reactor.

  18. A regulatory analysis on emergency preparedness for fuel cycle and other radioactive material licensees: Final report

    International Nuclear Information System (INIS)

    McGuire, S.A.

    1988-01-01

    The question this Regulatory Analysis sought to answer is: should the NRC impose additional emergency preparedness requirements on certain fuel cycle and other radioactive material licensees for dealing with accidents that might have offsite releases of radioactive material. To answer the question, we analyzed potential accidents for 15 types of fuel cycle and other radioactive material licensees. An appropriate plan would: (1) identify accidents for which protective actions should be taken by people offsite; (2) list the licensee's responsibilities for each type of accident, including notification of local authorities (fire and police generally); and (3) give sample messages for local authorities including protective action recommendations. This approach more closely follows the approach used for research reactors than for power reactors. The low potential offsite doses (acute fatalities and injuries not possible except possibly for UF 6 releases), the small areas where actions would be warranted, the small number of people involved, and the fact that the local police and fire departments would be doing essentially the same things they normally do, are all factors that tend to make a simple plan adequate. This report discusses the potentially hazardous accidents, and the likely effects of these accidents in terms of personnel danger

  19. The Fukushima Daiichi Accident. Technical Volume 3/5. Emergency Preparedness and Response. Annexes

    International Nuclear Information System (INIS)

    2015-08-01

    The Fukushima Daiichi Accident consists of a Report by the IAEA Director General and five technical volumes. It is the result of an extensive international collaborative effort involving five working groups with about 180 experts from 42 Member States with and without nuclear power programmes and several international bodies. It provides a description of the accident and its causes, evolution and consequences, based on the evaluation of data and information from a large number of sources available at the time of writing. The Fukushima Daiichi Accident will be of use to national authorities, international organizations, nuclear regulatory bodies, nuclear power plant operating organizations, designers of nuclear facilities and other experts in matters relating to nuclear power, as well as the wider public. The set contains six printed parts and five supplementary CD-ROMs. Contents: Report by the Director General; Technical Volume 1/5, Description and Context of the Accident; Technical Volume 2/5, Safety Assessment; Technical Volume 3/5, Emergency Preparedness and Response; Technical Volume 4/5, Radiological Consequences; Technical Volume 5/5, Post-accident Recovery; Annexes. The Report by the Director General is available separately in Arabic, Chinese, English, French, Russian, Spanish and Japanese

  20. The challenge of interacting with the public on nuclear emergency preparedness and iodine prophylaxis

    International Nuclear Information System (INIS)

    Van Bladel, L.; Pauwels, A.; Smeesters, P.

    2001-01-01

    In 1999 the Belgian federal authorities launched a large-scale campaign on nuclear emergency preparedness. The main objective was to inform the public at large of the whole territory on all aspects of radiological accidents and more specifically on the possible countermeasures, some of which they might be asked to take an active part in. At the same occasion, people living within the 10-kilometer zone surrounding the major nuclear sites were invited to collect a household stock of iodine tablets from their local pharmacy. Some well-defined target groups were offered specific and more extensive information. This was done for intervention workers, medical doctors, pharmacists and persons carrying responsibilities in schools, like principals and teachers. This paper first discusses the objectives of the campaign and the content of the information, explains the organisational set-up and practical execution, and finally gives some preliminary results of a recently conducted study on the perception of this campaign by members of the public. (authors)

  1. A regulatory analysis on emergency preparedness for fuel cycle and other radioactive material licensees: Final report

    Energy Technology Data Exchange (ETDEWEB)

    McGuire, S.A.

    1988-01-01

    The question this Regulatory Analysis sought to answer is: should the NRC impose additional emergency preparedness requirements on certain fuel cycle and other radioactive material licensees for dealing with accidents that might have offsite releases of radioactive material. To answer the question, we analyzed potential accidents for 15 types of fuel cycle and other radioactive material licensees. An appropriate plan would: (1) identify accidents for which protective actions should be taken by people offsite; (2) list the licensee's responsibilities for each type of accident, including notification of local authorities (fire and police generally); and (3) give sample messages for local authorities including protective action recommendations. This approach more closely follows the approach used for research reactors than for power reactors. The low potential offsite doses (acute fatalities and injuries not possible except possibly for UF/sub 6/ releases), the small areas where actions would be warranted, the small number of people involved, and the fact that the local police and fire departments would be doing essentially the same things they normally do, are all factors that tend to make a simple plan adequate. This report discusses the potentially hazardous accidents, and the likely effects of these accidents in terms of personnel danger.

  2. Dose - Response Curves for Dicentrics and PCC Rings: Preparedness for Radiological Emergency in Thailand

    International Nuclear Information System (INIS)

    Rungsimaphorn, B.; Rerkamnuaychoke, B.; Sudprasert, W.

    2014-01-01

    Establishing in-vitro dose calibration curves is important for reconstruction of radiation dose in the exposed individuals. The aim of this pioneering work in Thailand was to generate dose-response curves using conventional biological dosimetry: dicentric chromosome assay (DCA) and premature chromosome condensation (PCC) assay. The peripheral blood lymphocytes were irradiated with 137 Cs at a dose rate of 0.652 Gy/min to doses of 0.1, 0.25, 0.5, 0.75, 1, 2, 3, 4 and 5 Gy for DCA technique, and 5, 10, 15, 20 and 25 Gy for PCC technique. The blood samples were cultured and processed following the standard procedure given by the IAEA with slight modifications. At least 500-1,000 metaphases or 100 dicentrics/ PCC rings were analyzed using an automated metaphase finder system. The yield of dicentrics with dose was fitted to a linear quadratic model using Chromosome Aberration Calculation Software (CABAS, version 2.0), whereas the dose-response curve of PCC rings was fitted to a linear relationship. These curves will be useful for in-vitro dose reconstruction and can support the preparedness for radiological emergency in the country.

  3. The behavioral impacts of SARS and its implication for societal preparedness for other emerging infections

    Directory of Open Access Journals (Sweden)

    Kathleen Pik-san Kwok

    2008-07-01

    Full Text Available Introduction: This study examined public attitudes toward Severe Acute Respiratory Syndrome (SARS in Hong Kong three months after the peak of the 2003 outbreak in order to shed light on SARS-related complaints received by the Equal Opportunities Commission of Hong Kong. Methods: A cross-sectional telephone survey was conducted three months after the SARS outbreak of 1,023 randomly selected Chinese-speaking residents in Hong Kong. Results: Most of the respondents (72.2% reported worry about contracting SARS. They attributed their anxiety to the perceived danger of the disease, the government’s unsatisfactory style of crisis management, and inconsistent health information dissemination. The majority of respondents endorsed up to 3 avoidant (67.8% and 3 imposing (72.7% attitudes toward individuals and/or situations considered to be at risk of spreading SARS. Logistic Regression analyses indicated that the odds for avoidant and imposing attitudes increased significantly for those who were middle aged (35-54, employed full-time or part-time, and worried over contracting SARS. Conclusions: Public attitudes that endorsed avoidant and imposing behaviors were common during the outbreak of SARS. While essential for preventive health practices, they might bring about workplace conflicts, stigma, and other negative interpersonal experiences. These problems may complicate public health efforts to control the epidemic. They may also suggest ways in which societal preparedness for future emerging infections can be improved.

  4. Air leakage analysis of research reactor HANARO building in typhoon condition for the nuclear emergency preparedness

    International Nuclear Information System (INIS)

    Lee, Goany Up; Lee, Hae Cho; Kim, Bong Seok; Kim, Jong Soo; Choi, Pyung Kyu

    2016-01-01

    To find out the leak characteristic of research reactor 'HANARO' building in a typhoon condition MELCOR code which normally is used to simulate severe accident behavior in a nuclear power plant was used to simulate the leak rate of air and fission products from reactor hall after the shutdown of the ventilation system of HANARO reactor building. For the simulation, HANARO building was designed by MELCOR code and typhoon condition passed through Daejeon in 2012 was applied. It was found that the leak rate is 0.1%·day -1 of air, 0.004%·day -1 of noble gas and 3.7×10 -5 %·day -1 of aerosol during typhoon passing. The air leak rate of 0.1%·day can be converted into 1.36 m 3 ·hr -1 , but the design leak rate in HANARO safety analysis report was considered as 600 m3·hr -1 under the condition of 20 m·sec -1 wind speed outside of the building by typhoon. Most of fission products during the maximum hypothesis accident at HANARO reactor will be contained in the reactor hall, so the direct radiation by remained fission products in the reactor hall will be the most important factor in designing emergency preparedness for HANARO reactor

  5. IAEA response assistance network. Incident and Emergency Centre. Emergency preparedness and response. Date effective: 1 May 2006

    International Nuclear Information System (INIS)

    2006-03-01

    This publication is intended to serve as a tool for supporting the provision of international assistance in the case of nuclear or radiological incident or emergency, cooperation between States, their Competent Authorities and the IAEA, and harmonization of response capabilities of States offering assistance. The publication is issued under the authority of the Director General of the IAEA: (1) under the auspices of the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the Assistance Convention) [1], to promote, facilitate and support cooperation between States Parties to coordinate and/or provide assistance to a State Party and/or Member State; and (2) in the case of an incident or emergency, as statutory functions, to provide for the application of its safety standards, upon request by a Member State, and to act as an intermediary for the purposes of securing the performance of services or the supplying of materials, equipment or facilities by one Member State for another. The publication sets out the following: a) the RANET concept and the organizational structure for providing assistance; b) functions, responsibilities and activities within the RANET; c) the RANET response operations and arrangements needed for preparedness; and d) the prerequisites for RANET membership and conditions of registration. The RANET is divided into four sections. After the introduction in Section 1, the RANET concept, objectives and scope are described in Section 2. Section 3 presents the concept of operations of the RANET and Section 4 describes expected tasks, capabilities and resources. In addition, EPR-RANET (2006) has three supporting documents, which are issued separately, as follows: 1. Assistance Action Plans with samples of Assistance Action Plans for providing international assistance. 2. Registry with the details of the registry and instructions on how to register national assistance capabilities for the RANET. 3. Technical Guidelines

  6. RANET technical guidelines: Interim technical guidelines for national assistance capabilities. Emergency preparedness and response. Date effective: 1 January 2007

    International Nuclear Information System (INIS)

    2006-12-01

    The publication is issued as an attachment to EPR-RANET (2006) and has the same status. It provides administrative and technical guidelines for National Assistance Capabilities and enters into effect on 1 January 2007. Additional technical guidelines are under development by assistance work group under international Action Plan for Strengthening the International Preparedness and Response System for Nuclear and Radiological Emergencies. As these are finalised they will be included in this document

  7. Survey of Emergency Department staff on disaster preparedness and training for Ebola virus disease.

    Science.gov (United States)

    Siddle, Jennica; Tolleson-Rinehart, Sue; Brice, Jane

    2016-01-01

    In the domestic response to the outbreak of Ebola virus disease from 2013 to 2015, many US hospitals developed and implemented specialized training programs to care for patients with Ebola. This research reports on the effects of targeted training on Emergency Department (ED) staff's Ebola-related perceptions and attitudes. One hundred fifty-nine members of the UNC Health Care System ED staff participated in a voluntary cross-sectional, anonymous Web survey administered using a one-time "post then pre" design. Participants responded to questions about risk, roles, willingness to provide care, preparedness, and the contributions of media, training, or time to opinion change using a Likert agree-disagree scale. The authors conducted t test comparisons of Likert responses to pretraining and post-training attitudes about Ebola preparedness. The authors conducted multinomial logistic regression analyses of index scores of change and positivity of responses, controlling for the effects of independent variables. ED staff's opinions supported training; 73 percent felt all workers should receive Ebola education, 60 percent agreed all hospitals should prepare for Ebola, 66 percent felt UNC was better prepared, and 66 percent felt it had done enough to be ready for an Ebola case. Most staff (79 percent) said they had gotten more training for Ebola than for other disease outbreaks; 58 percent had experienced prior epidemics. After training, workers' attitudes were more positive about Ebola preparation including perceived risk of transmission, readiness and ability to manage a patient case, understanding team roles, and trust in both personal protective equipment and the hospital system's preparations (13 measures, p training period (Mean Difference [MD] = 17.45, SD = 9.89) and in the intended positive direction (MD = 15.80, SD = 0.91, p training (p = 0.003). Despite different occupations, mean scores were similar. Staff rated training most important and media least important

  8. Joint radiation emergency management plan of the international organizations. Emergency preparedness and response. Date effective: 1 December 2004

    International Nuclear Information System (INIS)

    2004-11-01

    The Convention on Early Notification of a Nuclear Accident (the 'Early Notification Convention') and the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the 'Assistance Convention') are the prime legal instruments that establish an international framework to facilitate the exchange of information and the prompt provision of assistance in the event of a nuclear accident or radiological emergency, with the aim of minimizing the consequences. The International Atomic Energy Agency (IAEA) has specific functions assigned to it under these Conventions, to which, in addition to a number of States, the World Health Organization (WHO), the World Meteorological Organization (WMO) and the Food and Agriculture Organization of the United Nations (FAO) are full Parties. Since 1989, the arrangements between these organizations for facilitating the practical implementation of those articles of the two Conventions that are operational in nature have been documented by the IAEA in the Emergency Notification and Assistance Technical Operations Manual (ENATOM). The manual is intended for use primarily by contact points as identified in the Conventions. Pursuant to the obligations placed on it by the Conventions, the IAEA regularly convenes the Inter-Agency Committee on Response to Nuclear Accidents (IACRNA)2, whose purpose is to co-ordinate the arrangements of the relevant international intergovernmental organizations ('international organizations') for preparing for and responding to nuclear or radiological emergencies. Although the Conventions assign specific response functions and responsibilities to the IAEA and the Parties, various international organizations have - by virtue of their statutory functions or of related legal instruments - general functions and responsibilities that encompass aspects of preparedness and response. Moreover, some regional organizations (e.g. the European Union) are party to legally binding treaties and have

  9. Resource mapping and emergency preparedness to infectious diseases in human and animal populations in Kibaha and Ngorongoro districts, Tanzania

    Directory of Open Access Journals (Sweden)

    E.D. Karimuribo

    2012-06-01

    Full Text Available A rapid situation analysis was conducted in Kibaha and Ngorongoro districts in Tanzania to map resources as well as analysing emergency preparedness to infectious diseases in animal (domestic and wild and human populations. Kibaha was chosen as a district close to a commercial city (Dar es Salaam while Ngorongoro represented a remote, border district with high interactions between humans, domestic and wild animals. In this study, data on resources and personnel as well as emergency preparedness were collected from all wards (n = 22, human health facilities (n = 40 and livestock facilities in the two districts using interview checklists and questionnaires. Descriptive statistics for resources were calculated and mapped by district. Kibaha district had a higher human population density, more health workers, better equipped health facilities and better communication and transport systems. On the other hand, Ngorongoro had a higher population of livestock and more animal health facilities but a poorer ratio of animal health workers to livestock. The average ratio of health personnel to population in catchment areas of the health facilities was 1:147 (range of 1:17−1:1200. The ratio of personnel to human population was significantly higher in Kibaha (1:95 than in Ngorongoro (1:203 district (p = 0 < 0.001. Considering the limited resources available to both human and animal health sectors and their different strengths and weaknesses there are opportunities for greater collaboration and resource-sharing between human and animal health for improved surveillance and emergency-preparedness.

  10. Emergency Preparedness Safety Climate and Other Factors Associated With Mental Health Outcomes Among World Trade Center Disaster Evacuees.

    Science.gov (United States)

    Sherman, Martin F; Gershon, Robyn R; Riley, Halley E M; Zhi, Qi; Magda, Lori A; Peyrot, Mark

    2017-06-01

    We examined psychological outcomes in a sample of participants who evacuated from the World Trade Center towers on September 11, 2011. This study aimed to identify risk factors for psychological injury that might be amenable to change, thereby reducing adverse impacts associated with emergency high-rise evacuation. We used data from a cross-sectional survey conducted 2 years after the attacks to classify 789 evacuees into 3 self-reported psychological outcome categories: long-term psychological disorder diagnosed by a physician, short-term psychological disorder and/or memory problems, and no known psychological disorder. After nonmodifiable risk factors were controlled for, diagnosed psychological disorder was more likely for evacuees who reported lower "emergency preparedness safety climate" scores, more evacuation challenges (during exit from the towers), and evacuation-related physical injuries. Other variables associated with increased risk of psychological disorder outcome included gender (female), lower levels of education, preexisting physical disability, preexisting psychological disorder, greater distance to final exit, and more information sources during egress. Improving the "emergency preparedness safety climate" of high-rise business occupancies and reducing the number of egress challenges are potential strategies for reducing the risk of adverse psychological outcomes of high-rise evacuations. Focused safety training for individuals with physical disabilities is also warranted. (Disaster Med Public Health Preparedness. 2017;11:326-336).

  11. Emergency preparedness source term development for the Office of Nuclear Material Safety and Safeguards-Licensed Facilities

    International Nuclear Information System (INIS)

    Sutter, S.L.; Mishima, J.; Ballinger, M.Y.; Lindsey, C.G.

    1984-08-01

    In order to establish requirements for emergency preparedness plans at facilities licensed by the Office of Nuclear Materials Safety and Safeguards, the Nuclear Regulatory Commission (NRC) needs to develop source terms (the amount of material made airborne) in accidents. These source terms are used to estimate the potential public doses from the events, which, in turn, will be used to judge whether emergency preparedness plans are needed for a particular type of facility. Pacific Northwest Laboratory is providing the NRC with source terms by developing several accident scenarios for eleven types of fuel cycle and by-product operations. Several scenarios are developed for each operation, leading to the identification of the maximum release considered for emergency preparedness planning (MREPP) scenario. The MREPP scenarios postulated were of three types: fire, tornado, and criticality. Fire was significant at oxide fuel fabrication, UF 6 production, radiopharmaceutical manufacturing, radiopharmacy, sealed source manufacturing, waste warehousing, and university research and development facilities. Tornadoes were MREPP events for uranium mills and plutonium contaminated facilities, and criticalities were significant at nonoxide fuel fabrication and nuclear research and development facilities. Techniques for adjusting the MREPP release to different facilities are also described

  12. Method for developing arrangements for response to a nuclear or radiological emergency. Updating IAEA-TECDOC-953. Emergency preparedness and response. Publication date: October 2003

    International Nuclear Information System (INIS)

    2003-09-01

    In 1997 the IAEA compiled, consolidated and organized existing information, and published the TECDOC-953 'Method for Development of Emergency Response Preparedness for Nuclear or Radiological Accidents'. Subsequently this publication was used extensively by the IAEA for training and for evaluation of emergency response programmes. In November 1999 a technical committee meeting (TCM) with representatives of over 20 States reviewed and provided feedback on IAEA-TECDOC-953. In March 2002, the IAEA's Board of Governors approved a Safety Requirements publication, 'Preparedness and Response for a Nuclear or Radiological Emergency', jointly sponsored by seven international organizations, which establishes the requirements for an adequate level of preparedness and response for a nuclear or radiological emergency in any State. The IAEA General Conference in resolution GC(46)/RES/9 encouraged Member States to implement, if necessary, instruments for improving their own preparedness and response capabilities for nuclear and radiological incidents and accidents, including their arrangements for responding to acts involving the malicious use of nuclear or radioactive material and to threats of such acts, and has further encouraged them to implement the Safety Requirements for Preparedness and Response to a Nuclear or Radiological Emergency. The obligations, responsibilities and requirements for preparedness and response for radiation emergencies are set out in the safety standards, in particular the 1996 'International Basic Safety Standards for Protection against Ionizing Radiation and for the Safety of Radiation Sources'. Consensus information on relevant radiation protection criteria was established in 1994 and published in 'Intervention Criteria in a Nuclear or Radiation Emergency'. Several other guides and publications in the area of emergency preparedness and response had previously been issued. The present publication now being issued in the Emergency Preparedness and

  13. The Fukushima Daiichi Accident. Technical Volume 3/5. Emergency Preparedness and Response

    International Nuclear Information System (INIS)

    2015-08-01

    This volume describes the key events and response actions from the onset of the accident at the Fukushima Daiichi nuclear power plant (NPP), operated by the Tokyo Electric Power Company (TEPCO), on 11 March 2011. It also describes the national emergency preparedness and response (EPR) system in place in Japan and the international EPR framework prior to the accident. It is divided into five sections. Section 3.1 describes the initial actions taken by Japan in response to the accident, involving: identification of the accident, notification of off-site authorities and activation of the response; mitigatory actions taken on-site; and initial off-site response. Section 3.2 describes the protective measures taken for personnel in response to the natural disaster, protection of emergency workers, medical management of emergency workers and the voluntary involvement of members of the public in the emergency response. Section 3.3 describes the protective actions and other response actions taken by Japan to protect the public. It addresses urgent and early protective actions; the use of a dose projection model, the System for Prediction of Environmental Emergency Dose Information (SPEEDI), as a basis for decisions on protective actions during the accident; environmental monitoring; provision of information to the public and international community; and issues related to international trade and waste management. Section 3.4 describes the transition from the emergency phase to the recovery phase. It also addresses the national analysis of the accident and the emergency response. Section 3.5 describes the response by the IAEA, other international organizations within the Inter- Agency Committee on Radiological and Nuclear Emergencies (IACRNE), the actions of IAEA Member States with regard to protective actions recommended to their nationals in Japan and the provision of international assistance. A summary, observations and lessons conclude each section. There are three

  14. Development of incident progress prediction technologies for nuclear emergency preparedness. Current status and future subjects

    International Nuclear Information System (INIS)

    Yoshida, Yoshitaka; Yamamoto, Yasunori; Kusunoki, Takayoshi; Kawasaki, Ikuo; Yanagi, Chihiro; Kinoshita, Ikuo; Iwasaki, Yoshito

    2014-01-01

    Nuclear licensees are required to maintain a prediction system during normal condition for using a nuclear emergency by the Basic Plan for Disaster Prevention of government. With prediction of the incident progress, if the present condition of nuclear power plant is understood appropriately and it grows more serious with keeping the present situation, it is in predicting what kind of situation will be occurred in the near future, choosing the effective countermeasures against the coming threat, and understanding the time available of intervention time. Following the accident on September 30 1999 in the nuclear fuel fabrication facility in Tokai Village of Ibaraki Prefecture, the Institute of Nuclear Safety System started development of incident progress prediction technologies for nuclear emergency preparedness. We have performed technical applications and made improvements in nuclear emergency exercises and verified the developed systems using the observed values of the Fukushima Daiichi Nuclear Power Plant accident. As a result, our developed Incident Progress Prediction System was applied to nuclear emergency exercises and we accumulated knowledge and experience by which we improved the system to make predictions more rapidly and more precisely, including for example, the development of a prediction method for leak size of reactor coolant. On the other hand, if a rapidly progressing incident occurs, since end users need simple and quick predictions about the public's protection and evacuation areas, we developed the Radioactive Materials Release, Radiation Dose and Radiological Protection Area Prediction System which changed solving an inverse problem into a forward problem solution. In view of the water-level-decline incident of the spent fuel storage facility at the Fukushima Daiichi Nuclear Power Plant, the spent fuel storage facility water level and the water temperature evaluation tool were improved. Such incident progress prediction technologies were

  15. NKS - The Nordic region's cooperative network for addressing challenges in nuclear safety and emergency preparedness

    Energy Technology Data Exchange (ETDEWEB)

    Andersson, K.G. [NKS/Technical University of Denmark (Denmark); Andgren, K. [NKS/Vattenfall R and D (Sweden); Leino, K. [NKS/Fortum Power and Heat Oy (Finland); Magnusson, S. [NKS/Icelandic Radiation Safety Authority (Iceland); Physant, F. [NKS/FRIT, Roskilde (Denmark)

    2014-07-01

    Based on the foundation of a common cultural and historical heritage and a long tradition of collaboration, NKS aims to facilitate a common Nordic view on nuclear and radiation safety. A common understanding of rules, practice and measures, and national differences in this context, is here an essential requirement. Problems can generally be tackled quicker, more efficiently, more consistently and at a lower cost through collaboration, bearing in mind that key competencies are not equally distributed in the different Nordic countries. For instance common Nordic challenges emerge in relation to nuclear installations, where nuclear power plants are in operation in Finland and Sweden, and research reactors have been operated in Denmark, Finland, Norway and Sweden. There is an obvious benefit in exchanging ideas and technologies in relation to plant operation, and since a number of reactors in different Nordic countries are under decommissioning, a collaborative benefit can also be realised in that context. Sweden also has a nuclear fuel production plant, and its collaboration with other Nordic nuclear installations can also be beneficial. Further, a number of large radiological installations are projected in Nordic areas (e.g., the MAX-LAB/MAX IV synchrotron radiation source and the European spallation source ESS), where Nordic organisations are collaborating in addressing, e.g., potential environmental implications. On the emergency preparedness side, the Fukushima accident in March 2011 was a reminder that large accidents at nuclear installations can lead to widespread radioactive contamination in the environment. In order to respond to nuclear or radiological emergencies, should they affect Nordic populations, it is necessary to maintain an operational emergency preparedness. By continuously improving detection, response and decision aiding tools while maintaining an informal collaborative network between relevant stakeholders in the Nordic countries (including

  16. Y2K medical disaster preparedness in New York City: confidence of emergency department directors in their ability to respond.

    Science.gov (United States)

    Silber, S H; Oster, N; Simmons, B; Garrett, C

    2001-01-01

    To study the preparedness New York City for large scale medical disasters using the Year 2000 (Y2K) New Years Eve weekend as a model. Surveys were sent to the directors of 51 of the 9-1-1-receiving hospitals in New York City before and after the Y2K weekend. Inquiries were made regarding hospital activities, contingencies, protocols, and confidence levels in the ability to manage critical incidents, including weapons of mass destruction (WMD) events. Additional information was collected from New York City governmental agencies regarding their coordination and preparedness. The pre-Y2K survey identified that 97.8% had contingencies for loss of essential services, 87.0% instituted their disaster plan in advance, 90.0% utilized an Incident Command System, and 73.9% had a live, mock Y2K drill. Potential terrorism influenced Y2K preparedness in 84.8%. The post-Y2K survey indicated that the threat of terrorism influenced future preparedness in 73.3%; 73.3% had specific protocols for chemical; 62.2% for biological events; 51.1% were not or only slightly confident in their ability to manage any potential WMD incidents; and 62.2% felt very or moderately confident in their ability to manage victims of a chemical event, but only 35.6% felt similarly about victims of a biological incident. Moreover, 80% felt there should be government standards for hospital preparedness for events involving WMD, and 84% felt there should be government standards for personal protective and DECON equipment. In addition, 82.2% would require a moderate to significant amount of funding to effect the standards. Citywide disaster management was coordinated through the Mayor's Office of Emergency Management. Although hospitals were on a heightened state of alert, emergency department directors were not confident in their ability to evaluate and manage victims of WMD incidents, especially biological exposures. The New York City experience is an example for the rest of the nation to underscore the need

  17. Dynamic temperature and humidity environmental profiles: impact for future emergency and disaster preparedness and response.

    Science.gov (United States)

    Ferguson, William J; Louie, Richard F; Tang, Chloe S; Paw U, Kyaw Tha; Kost, Gerald J

    2014-02-01

    During disasters and complex emergencies, environmental conditions can adversely affect the performance of point-of-care (POC) testing. Knowledge of these conditions can help device developers and operators understand the significance of temperature and humidity limits necessary for use of POC devices. First responders will benefit from improved performance for on-site decision making. To create dynamic temperature and humidity profiles that can be used to assess the environmental robustness of POC devices, reagents, and other resources (eg, drugs), and thereby, to improve preparedness. Surface temperature and humidity data from the National Climatic Data Center (Asheville, North Carolina USA) was obtained, median hourly temperature and humidity were calculated, and then mathematically stretched profiles were created to include extreme highs and lows. Profiles were created for: (1) Banda Aceh, Indonesia at the time of the 2004 Tsunami; (2) New Orleans, Louisiana USA just before and after Hurricane Katrina made landfall in 2005; (3) Springfield, Massachusetts USA for an ambulance call during the month of January 2009; (4) Port-au-Prince, Haiti following the 2010 earthquake; (5) Sendai, Japan for the March 2011 earthquake and tsunami with comparison to the colder month of January 2011; (6) New York, New York USA after Hurricane Sandy made landfall in 2012; and (7) a 24-hour rescue from Hawaii USA to the Marshall Islands. Profiles were validated by randomly selecting 10 days and determining if (1) temperature and humidity points fell inside and (2) daily variations were encompassed. Mean kinetic temperatures (MKT) were also assessed for each profile. Profiles accurately modeled conditions during emergency and disaster events and enclosed 100% of maximum and minimum temperature and humidity points. Daily variations also were represented well with 88.6% (62/70) of temperature readings and 71.1% (54/70) of relative humidity readings falling within diurnal patterns. Days

  18. Evaluation of preparedness for medical emergencies among dental practitioners in Khammam town: A cross-sectional study

    Directory of Open Access Journals (Sweden)

    L Surya Chandra Varma

    2015-01-01

    Full Text Available Introduction: Medical emergencies can occur frequently in the dental setting. Effective management of an emergency situation in the dental office is ultimately the dentist responsibility. The assessment of preparedness of dental practitioners would help to bring about required changes in the teaching aspects of dental institutions, which would ultimately help dental graduates to improve knowledge regarding management of medical emergencies. This would also make dental offices available with required emergency drugs. Aim: To evaluate the preparedness for medical emergencies among the dental practitioners in Khammam town. Materials and Methods: A cross-sectional questionnaire-based study with a sample of 301 was conducted among dental clinicians at Khammam to evaluate their knowledge regarding medical emergencies. The questionnaire consisted of nineteen questions. First nine questions are objective questions, requiring a simple yes or no reply. Next ten questions are multiple choice questions regarding Emergency Medical Services and basic life support. Chi-square test was used to analyze the data. A P < 0.05 is considered significant. Results: The results of this study showed that almost all the participants (94.02% enquired about medical and drug history, but only 67.11% of them obtained a complete health history proforma of the patient. About 83.06% record vital signs, 74.09% of members report about attending workshops on emergency training and management, and 50.5% of members were either not sure or not in a position to handle the emergency condition. Conclusion: The results of this study reflect an alarming situation of the capability of dentists to deal with medical emergencies at dental offices and make available all the emergency drugs at their offices.

  19. Measuring the preparedness of health facilities to deliver emergency obstetric care in a South African district.

    Science.gov (United States)

    Thwala, Siphiwe Bridget Pearl; Blaauw, Duane; Ssengooba, Freddie

    2018-01-01

    Improving the delivery of emergency obstetric care (EmNOC) remains critical in addressing direct causes of maternal mortality. United Nations (UN) agencies have promoted standard methods for evaluating the availability of EmNOC facilities although modifications have been proposed by others. This study presents an assessment of the preparedness of public health facilities to provide EmNOC using these methods in one South African district with a persistently high maternal mortality ratio. Data collection took place in the final quarter of 2014. Cross-sectional surveys were conducted to classify the 7 hospitals and 8 community health centres (CHCs) in the district as either basic EmNOC (BEmNOC) or comprehensive EmNOC (CEmNOC) facilities using UN EmNOC signal functions. The required density of EmNOC facilities was calculated using UN norms. We also assessed the availability of EmNOC personnel, resuscitation equipment, drugs, fluids, and protocols at each facility. The workload of skilled EmNOC providers at hospitals and CHCs was compared. All 7 hospitals in the district were classified as CEmNOC facilities, but none of the 8 CHCs performed all required signal functions to be classified as BEmNOC facilities. UN norms indicated that 25 EmNOC facilities were required for the district population, 5 of which should be CEmNOCs. None of the facilities had 100% of items on the EmNOC checklists. Hospital midwives delivered an average of 36.4±14.3 deliveries each per month compared to only 7.9±3.2 for CHC midwives (pfacilities in the district. Full EmNOC services were centralised to hospitals to assure patient safety even though national policy guidelines sanction more decentralisation to CHCs. Studies measuring EmNOC availability need to consider facility opening hours, capacity and staffing in addition to the demonstrated performance of signal functions.

  20. Unisampo/shaman/linssi Automatic gamma-spectrum pipeline for nuclear emergency preparedness

    International Nuclear Information System (INIS)

    Zhang Weihua; Kurt Ungar; Pertti Aainio; Jarmo Ala-Heikkila; Harri Toivonen; Teemu Siiskonen; Arto Isolankila; Antero Kuusi

    2005-01-01

    Linux System for Spectral Information (LINSSI) is an SQL database and established under Linux. It is being developed in collaboration with the Radiation Physics Group of Helsinki University of Technology (RPG/HUT), Finnish National Data Centre (FiNDC), Aerosol Laboratory of the Finnish Radiation and Nuclear Safety Authority (ASL/STUK) and Radiation Protection Bureau of Health Canada (RPB/HC). The database is for environmental radiation monitoring and nuclear emergency preparedness purposes. It is designed not only for storage of information but it is also a platform for interfacing different analysis tools. The structure of database has been published and described at website http://www.hut.fi/Units/AES/projects/radphys/linssi/. It is created as a transparent database structure which could be used for different applications. Thus, other companies and organization are encouraged to provide software to handle and share the information in the database, both in the form of input and output. In January 2004, first LINSSI database released at STUK is compatible with UniSampo/Shaman. Unisampo is a peak analysis software with some identification capabilities; Shaman is the genuine nuclide identification software and also for activity calculation and Linssi is a MySQL database. Now the system is mainly focus on Gamma-ray spectrometry. After a short period of testing, this automatic pipeline becomes operational at PRB in April 2004. Currently daily Gamma spectrum information from all CTBT radionuclide monitoring stations have been processing automatically; at this moment more than 20 thousand cases have been stored in database. A www-based user interface, zero time calculation, station statistic analysis tool and ARR report scripts have been developed. In recent System-wide Performance Test (SPT) of CTBT, the pipeline played an important role at Canadian nuclear data center. With this system we can very easily report the automated, also the reviewed results to IDC based on

  1. Participatory public health systems research: value of community involvement in a study series in mental health emergency preparedness.

    Science.gov (United States)

    McCabe, O Lee; Marum, Felicity; Semon, Natalie; Mosley, Adrian; Gwon, Howard; Perry, Charlene; Moore, Suzanne Straub; Links, Jonathan M

    2012-01-01

    Concerns have arisen over recent years about the absence of empirically derived evidence on which to base policy and practice in the public health system, in general, and to meet the challenge of public health emergency preparedness, in particular. Related issues include the challenge of disaster-caused, behavioral health surge, and the frequent exclusion of populations from studies that the research is meant to aid. To characterize the contributions of nonacademic collaborators to a series of projects validating a set of interventions to enhance capacity and competency of public mental health preparedness planning and response. Urban, suburban, and rural communities of the state of Maryland and rural communities of the state of Iowa. Study partners and participants (both of this project and the studies examined) were representatives of academic health centers (AHCs), local health departments (LHDs), and faith-based organizations (FBOs) and their communities. A multiple-project, case study analysis was conducted, that is, four research projects implemented by the authors from 2005 through 2011 to determine the types and impact of contributions made by nonacademic collaborators to those projects. The analysis involved reviewing research records, conceptualizing contributions (and providing examples) for government, faith, and (nonacademic) institutional collaborators. Ten areas were identified where partners made valuable contributions to the study series; these "value-areas" were as follows: 1) leadership and management of the projects; 2) formulation and refinement of research topics, aims, etc; 3) recruitment and retention of participants; 4) design and enhancement of interventions; 5) delivery of interventions; 6) collection, analysis, and interpretation of data; 7) dissemination of findings; 8) ensuring sustainability of faith/government preparedness planning relationships; 9) optimizing scalability and portability of the model; and 10) facilitating

  2. Gaseous emissions from coal stockpiles

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2013-01-15

    Stockpiled coal undergoes atmospheric oxidation and desorption processes during open air storage. These processes release gases to the environment which may effect health and safety by their toxicity and flammability. In extreme cases, this could lead to a fire. This report discusses gaseous emissions from coal stockpiles. It covers gas emission mechanisms, and gas sampling and testing methods, before examining in more detail the principal gases that have been emitted. It concludes that there is limited research in this area and more data are needed to evaluate the risks of gaseous emissions. Some methods used to prevent coal self-heating and spontaneous combustion can be applied to reduce emissions from coal stockpiles.

  3. Public Health Crisis Preparedness and Response in Korea

    Science.gov (United States)

    Lee, Hye-Young; Oh, Mi-Na; Park, Yong-Shik; Chu, Chaeshin; Son, Tae-Jong

    2013-01-01

    Since the 2006 Pandemic Influenza Preparedness and Response Plan according to the World Health Organization’s recommendation, the Republic of Korea has prepared and periodically evaluated the plan to respond to various public health crises including pandemic influenza. Korea has stockpiled 13,000,000 doses of antiviral drugs covering 26% of the Korean population and runs 519 isolated beds in 16 medical institutions. The division of public health crisis response in Korea Centers for Disease Control and Prevention are in charge of responding to public health crises caused by emerging infectious diseases including severe acute respiratory syndrome, avian influenza human infection, and pandemic influenza. Its job description includes preparing for emerging infectious diseases, securing medical resources during a crisis, activating the emergency response during the crisis, and fortification of capabilities of public health personnel. It could evolve into a comprehensive national agency to deal with public health crisis based on the experience of previous national emerging infectious diseases. PMID:24298444

  4. Temperature profiles of coal stockpiles

    Energy Technology Data Exchange (ETDEWEB)

    Sensogut, C.; Ozdeniz, A.H.; Gundogdu, I.B. [Dumlupinar University, Kutahya (Turkey). Mining Engineering Department

    2008-07-01

    Excess of produced coals should be kept in the stockyards of the collieries. The longer the duration time for these coals, the greater possibility for spontaneous combustion to take place. Spontaneously burnt coals result in economical and environmental problems. Therefore, taking the necessary precautions before an outburst of the spontaneous combustion phenomenon is too important in terms of its severe results. In this study, a stockpile having industrial dimensions was formed in coal stockyard. The effective parameters on the stockpiles of coal such as temperature and humidity of the weather, time, and atmospheric pressure values were measured. The interior temperature variations of these stockpiles caused by the atmospheric conditions were also measured. The interior temperature distribution maps of the stockpile together with maximum and minimum temperature values were expressed visually and numerically by the assistance of obtained data.

  5. Filling the gap between disaster preparedness and response networks of urban emergency management: Following the 2013 Seoul Floods.

    Science.gov (United States)

    Song, Minsun; Jung, Kyujin

    2015-01-01

    To examine the gap between disaster preparedness and response networks following the 2013 Seoul Floods in which the rapid transmission of disaster information and resources was impeded by severe changes of interorganizational collaboration networks. This research uses the 2013 Seoul Emergency Management Survey data that were collected before and after the floods, and total 94 organizations involving in coping with the floods were analyzed in bootstrap independent-sample t-test and social network analysis through UCINET 6 and STATA 12. The findings show that despite the primary network form that is more hierarchical, horizontal collaboration has been relatively invigorated in actual response. Also, interorganizational collaboration networks for response operations seem to be more flexible grounded on improvisation to coping with unexpected victims and damages. Local organizations under urban emergency management are recommended to tightly build a strong commitment for joint response operations through full-size exercises at the metropolitan level before a catastrophic event. Also, interorganizational emergency management networks need to be restructured by reflecting the actual response networks to reduce collaboration risk during a disaster. This research presents a critical insight into inverse thinking of the view designing urban emergency management networks and provides original evidences for filling the gap between previously coordinated networks for disaster preparedness and practical response operations after a disaster.

  6. Preparation, Conduct and Evaluation of Exercises to Test Preparedness for a Nuclear or Radiological Emergency - Training Materials

    International Nuclear Information System (INIS)

    2010-01-01

    Emergency response exercises are a key component of a good program of preparation in emergencies. They can provide a unique insight on the State of preparation of emergency response organizations. They can also be the basis for continuous improvement programs of the infrastructure of response in emergencies. However, to be more useful, the exercises in emergency response need to be well organized, professionally conducted and its assessment should focus on the potential for constructive improvement. The course of the IAEA on preparedness, conduction and evaluation exercises to test the preparation before a nuclear emergency or radiation designed for people and organizations that want to increase their ability to carry out effective and significant emergency exercises. The objectives of this course are: To familiarize participants with concepts, terminology, process of preparation, conduction and evaluation of the exercise to test the preparation before a nuclear emergency or radiation; Provide participants with knowledge practical and the ability to organize, lead and evaluate an exercise to test the preparation for a nuclear emergency or radiation in their own countries; Submit an exercise response model in emergency prepared by the IAEA; and give participants the skill to adapt the proposal of model exercise and organize and lead this exercise model right in your own country. [es

  7. Emergency and disaster preparedness for chronically ill patients: a review of recommendations

    Directory of Open Access Journals (Sweden)

    Tomio J

    2014-12-01

    Full Text Available Jun Tomio,1 Hajime Sato2 1Department of Public Health, Graduate School of Medicine, The University of Tokyo, Tokyo, Japan; 2Department of Health Policy and Technology Assessment, National Institute of Public Health, Wako, Japan Abstract: Recent disasters, especially those in developed countries, have highlighted the importance of disaster preparedness measures for chronic diseases. A number of surviving patients experienced the exacerbation of a chronic illness, such as hypertension, diabetes, cancer, and chronic respiratory diseases, due to disaster-related stress, interruption of care, or both; for some patients, these exacerbations resulted in death. Here, we review reports from recent disasters in developed countries and summarize the recommendations for disaster preparedness of chronically ill patients. A considerable number of recommendations based on the lessons learned from recent disasters have been developed, and they provide practical and essential steps to prevent treatment interruption during and after a disaster. To improve preparedness efforts, we suggest that health care providers should be aware of the following three suggestions: 1 recommendations should be evidence-based; 2 recommendations should contain consistent messages; and 3 recommendations should be feasible. Keywords: disaster, chronic illness, preparedness

  8. 76 FR 72431 - Criteria for Preparation and Evaluation of Radiological Emergency Response Plans and Preparedness...

    Science.gov (United States)

    2011-11-23

    ... national preparedness terms and concepts found in the National Incident Management System (NIMS)/ Incident... many of the REP Program's operative guidance and policy documents into one location, and [[Page 72432... for alert and notification systems. In addition, Supplement 4 revises and adds evaluation criteria and...

  9. Antibiotic losses from unprotected manure stockpiles.

    Science.gov (United States)

    Dolliver, Holly A S; Gupta, Satish C

    2008-01-01

    Manure management is a major concern in livestock production systems. Although historically the primary concerns have been nutrients and pathogens, manure is also a source of emerging contaminants, such as antibiotics, to the environment. There is a growing concern that antibiotics in manure are reaching surface and ground waters and contributing to the development and spread of antibiotic resistance in the environment. One such pathway is through leaching and runoff from manure stockpiles. In this study, we quantified chlortetracycline, monensin, and tylosin losses in runoff from beef manure stockpiles during two separate but consecutive experiments representing different weather conditions (i.e., temperature and precipitation amount and form). Concentrations of chlortetracycline, monensin, and tylosin in runoff were positively correlated with initial concentrations of antibiotics in manure. The highest concentrations of chlortetracycline, monensin, and tylosin in runoff were 210, 3175, and 2544 microg L(-1), respectively. Relative antibiotic losses were primarily a function of water losses. In the experiment that had higher runoff water losses, antibiotic losses ranged from 1.2 to 1.8% of total extractable antibiotics in manure. In the experiment with lower runoff water losses, antibiotic losses varied from 0.2 to 0.6% of the total extractable antibiotics in manure. Manure analysis over time suggests that in situ degradation is an important mechanism for antibiotic losses. Degradation losses during manure stockpiling may exceed cumulative losses from runoff events. Storing manure in protected (i.e., covered) facilities could reduce the risk of aquatic contamination associated with manure stockpiling and other outdoor manure management practices.

  10. Emergency preparedness incident response and radiation monitoring in Finland. Annual report 1998; Valmiustapahtumat ja valtakunnallinen saeteilyvalvonta. Vuosiraportti 1998

    Energy Technology Data Exchange (ETDEWEB)

    Ristonmaa, S. [ed.

    1999-03-01

    The Radiation and Nuclear Safety Authority (STUK) publishes annually a report about STUK's preparedness measures. The report describes notifications received by STUK's on duty system and further measures carried out after receiving a message. In addition, the emergence exercises STUK participated in during the year are described. The radiation situation in Finland is continuously monitored. STUK is the authority who carries out a wide range of environmental measurements, sampling and sensitive laboratory analyses. The measurement results are presented in the form of tables and graphically. (editor)

  11. Emergency preparedness incident response and radiation monitoring in Finland. Annual report 1999; Valmiustapahtumat ja saeteilyvalvonta. Vuosiraportti 1999

    Energy Technology Data Exchange (ETDEWEB)

    Ristonmaa, S. [ed.

    2000-04-01

    The Radiation and Nuclear Safety Authority (STUK) publishes annually a report about STUK's preparedness measures. The report describes notifications received by STUK's on duty system and further measures carried out after receiving a message. In addition, the emergence exercises STUK participated in during the year are described. The radiation situation in Finland is continuously monitored. STUK is the authority who carries out a wide range of environmental measurements, sampling and sensitive laboratory analyses. The measurement results are presented in the form of tables and graphically. (editor)

  12. Restart of the Armenia-2 Nuclear Power Station: Radiological emergency preparedness considerations for the nearby American community

    International Nuclear Information System (INIS)

    Vargo, G.J.; Sherwood, G.L.

    1996-01-01

    The Armenia Nuclear Power Station is located at Metsamor, approximately 30 km NW of the capital, Yerevan. The station, a two-unit, first-generation Soviet-designed VVER-440/270 pressurized water reactor plant was closed following the 1988 earthquake near Spitak. Because of a severe energy shortage the Government of Armenia has undertaken a program to recommission Unit 2. The plant design and circumstances surrounding its closure caused members of the U.S. Embassy staff and the American community in Armenia to express concerns for their safety in the event of a radiological emergency. In response, two representatives from the U.S. Department of Energy's International Nuclear Safety Program traveled to Armenia to review the Status of radiological emergency preparedness, meet with the American community, and make protective action recommendations. In this presentation we examine the major issues associated with recommissioning of Armenia-2, the challenges involved with developing a radiological emergency preparedness program for the American community, and our recommendations for protective actions in the absence of a strong communications and radiological monitoring infrastructure

  13. A comparative assessment of major international disasters: the need for exposure assessment, systematic emergency preparedness, and lifetime health care

    Directory of Open Access Journals (Sweden)

    Roberto G. Lucchini

    2017-01-01

    Full Text Available Abstract Background The disasters at Seveso, Three Mile Island, Bhopal, Chernobyl, the World Trade Center (WTC and Fukushima had historic health and economic sequelae for large populations of workers, responders and community members. Methods Comparative data from these events were collected to derive indications for future preparedness. Information from the primary sources and a literature review addressed: i exposure assessment; ii exposed populations; iii health surveillance; iv follow-up and research outputs; v observed physical and mental health effects; vi treatment and benefits; and vii outreach activities. Results Exposure assessment was conducted in Seveso, Chernobyl and Fukushima, although none benefited from a timely or systematic strategy, yielding immediate and sequential measurements after the disaster. Identification of exposed subjects was overall underestimated. Health surveillance, treatment and follow-up research were implemented in Seveso, Chernobyl, Fukushima, and at the WTC, mostly focusing on the workers and responders, and to a lesser extent on residents. Exposure-related physical and mental health consequences were identified, indicating the need for a long-term health care of the affected populations. Fukushima has generated the largest scientific output so far, followed by the WTCHP and Chernobyl. Benefits programs and active outreach figured prominently in only the WTC Health Program. The analysis of these programs yielded the following lessons: 1 Know who was there; 2 Have public health input to the disaster response; 3 Collect health and needs data rapidly; 4 Take care of the affected; 5 Emergency preparedness; 6 Data driven, needs assessment, advocacy. Conclusions Given the long-lasting health consequences of natural and man-made disasters, health surveillance and treatment programs are critical for management of health conditions, and emergency preparedness plans are needed to prevent or minimize the impact of

  14. A comparative assessment of major international disasters: the need for exposure assessment, systematic emergency preparedness, and lifetime health care.

    Science.gov (United States)

    Lucchini, Roberto G; Hashim, Dana; Acquilla, Sushma; Basanets, Angela; Bertazzi, Pier Alberto; Bushmanov, Andrey; Crane, Michael; Harrison, Denise J; Holden, William; Landrigan, Philip J; Luft, Benjamin J; Mocarelli, Paolo; Mazitova, Nailya; Melius, James; Moline, Jacqueline M; Mori, Koji; Prezant, David; Reibman, Joan; Reissman, Dori B; Stazharau, Alexander; Takahashi, Ken; Udasin, Iris G; Todd, Andrew C

    2017-01-07

    The disasters at Seveso, Three Mile Island, Bhopal, Chernobyl, the World Trade Center (WTC) and Fukushima had historic health and economic sequelae for large populations of workers, responders and community members. Comparative data from these events were collected to derive indications for future preparedness. Information from the primary sources and a literature review addressed: i) exposure assessment; ii) exposed populations; iii) health surveillance; iv) follow-up and research outputs; v) observed physical and mental health effects; vi) treatment and benefits; and vii) outreach activities. Exposure assessment was conducted in Seveso, Chernobyl and Fukushima, although none benefited from a timely or systematic strategy, yielding immediate and sequential measurements after the disaster. Identification of exposed subjects was overall underestimated. Health surveillance, treatment and follow-up research were implemented in Seveso, Chernobyl, Fukushima, and at the WTC, mostly focusing on the workers and responders, and to a lesser extent on residents. Exposure-related physical and mental health consequences were identified, indicating the need for a long-term health care of the affected populations. Fukushima has generated the largest scientific output so far, followed by the WTCHP and Chernobyl. Benefits programs and active outreach figured prominently in only the WTC Health Program. The analysis of these programs yielded the following lessons: 1) Know who was there; 2) Have public health input to the disaster response; 3) Collect health and needs data rapidly; 4) Take care of the affected; 5) Emergency preparedness; 6) Data driven, needs assessment, advocacy. Given the long-lasting health consequences of natural and man-made disasters, health surveillance and treatment programs are critical for management of health conditions, and emergency preparedness plans are needed to prevent or minimize the impact of future threats.

  15. Nurses’ roles, knowledge and experience in national disaster pre-paredness and emergency response: A literature review

    Directory of Open Access Journals (Sweden)

    Thomas Grochtdreis

    2016-12-01

    Results: The sub-themes of the first main theme (a roles of nurses during emergency response include the expectations of the hospital and the public, general and special roles of nurses, assignments of medical tasks, special role during a pandemic influenza, role conflicts during a disaster, willingness to respond to a disaster. For (b disaster preparedness knowledge of nurses, the corresponding sub-themes include the definition of a disaster, core competencies and curriculum, undergraduate nursing education and continuing education programs, disaster drills, training and exercises, preparedness. The sub-themes for the last theme (c disaster experiences of nurses include the work environment, nursing care, feelings, stressors, willingness to respond as well as lessons learned and impacts. Conclusion: There is consensus in the literature that nurses are key players in emergency response. However, no clear mandate for nurses exists concerning their tasks during a disaster. For a nurse, to be able to respond to a disaster, personal and professional preparedness, in terms of education and training, are central. The Framework of Disaster Nursing Competencies of the WHO and ICN, broken down into national core competencies, will serve as a sufficient complement to the knowledge and skills of nurses already acquired through basic nursing curricula. During and after a disaster, attention should be applied to the work environment, feelings and stressors of nurses, not only to raise the willingness to respond to a disaster. Where non-existent, national directives and concepts for disaster nursing should be developed and nurses should be aware of their duties. Nursing educators should prepare nurses for disasters, by adjusting the curricula and by meeting the increased need for education and training in disaster nursing for all groups of nurses. The appropriateness of theoretical and practical preparation of disaster nursing competencies in undergraduate nursing courses and

  16. Cooperation in Nuclear Waste Management, Radiation Protection, Emergency Preparedness, Reactor Safety and Nuclear Non-Proliferation in Eastern Europe

    International Nuclear Information System (INIS)

    Dassen, Lars van; Delalic, Zlatan; Ekblad, Christer; Keyser, Peter; Turner, Roland; Rosengaard, Ulf; German, Olga; Grapengiesser, Sten; Andersson, Sarmite; Sandberg, Viviana; Olsson, Kjell; Stenberg, Tor

    2009-10-01

    The Swedish Radiation Safety Authority (SSM) is trusted with the task of implementing Sweden's bilateral assistance to Russia, Ukraine, Georgia, Belarus and Armenia in the fields of reactor safety, nuclear waste management, nuclear non-proliferation as well as radiation protection and emergency preparedness. In these fields, SSM also participates in various projects financed by the European Union. The purpose of this project-oriented report is to provide the Swedish Government and other funding agencies as well as other interested audiences in Sweden and abroad with an encompassing understanding of our work and in particular the work performed during 2008. the activities are divided into four subfields: Nuclear waste management; Reactor safety; Radiation safety and emergency preparedness; and, Nuclear non-proliferation. SSM implements projects in the field of spent nuclear fuel and radioactive waste management in Russia. The problems in this field also exist in other countries, yet the concentration of nuclear and radioactive materials are nowhere higher than in north-west Russia. And given the fact that most of these materials stem from the Cold War era and remain stored under conditions that vary from 'possibly acceptable' to 'wildly appalling' it is obvious that Sweden's first priority in the field of managing nuclear spent fuel and radioactive waste lies in this part of Russia. The prioritisation and selection of projects in reactor safety are established following thorough discussions with the partners in Russia and Ukraine. For specific guidance on safety and recommended safety improvements at RBMK and VVER reactors, SSM relies on analyses and handbooks established by the IAEA in the 1990s. In 2008, there were 16 projects in reactor safety. SSM implements a large number of projects in the field of radiation protection and emergency preparedness. The activities are at a first glance at some distance from the activities covered and foreseen by for instance the

  17. Situation-assessment and decision-aid production-rule analysis system for nuclear plant monitoring and emergency preparedness

    International Nuclear Information System (INIS)

    Gvillo, D.; Ragheb, M.; Parker, M.; Swartz, S.

    1987-01-01

    A Production-Rule Analysis System is developed for Nuclear Plant Monitoring. The signals generated by the Zion-1 Plant are considered. A Situation-Assessment and Decision-Aid capability is provided for monitoring the integrity of the Plant Radiation, the Reactor Coolant, the Fuel Clad, and the Containment Systems. A total of 41 signals are currently fed as facts to an Inference Engine functioning in the backward-chaining mode and built along the same structure as the E-Mycin system. The Goal-Tree constituting the Knowledge Base was generated using a representation in the form of Fault Trees deduced from plant procedures information. The system is constructed in support of the Data Analysis and Emergency Preparedness tasks at the Illinois Radiological Emergency Assessment Center (REAC)

  18. Situation-Assessment And Decision-Aid Production-Rule Analysis System For Nuclear Plant Monitoring And Emergency Preparedness

    Science.gov (United States)

    Gvillo, D.; Ragheb, M.; Parker, M.; Swartz, S.

    1987-05-01

    A Production-Rule Analysis System is developed for Nuclear Plant Monitoring. The signals generated by the Zion-1 Plant are considered. A Situation-Assessment and Decision-Aid capability is provided for monitoring the integrity of the Plant Radiation, the Reactor Coolant, the Fuel Clad, and the Containment Systems. A total of 41 signals are currently fed as facts to an Inference Engine functioning in the backward-chaining mode and built along the same structure as the E-Mycin system. The Goal-Tree constituting the Knowledge Base was generated using a representation in the form of Fault Trees deduced from plant procedures information. The system is constructed in support of the Data Analysis and Emergency Preparedness tasks at the Illinois Radiological Emergency Assessment Center (REAC).

  19. Guided preparedness planning with lay communities: enhancing capacity of rural emergency response through a systems-based partnership.

    Science.gov (United States)

    McCabe, O Lee; Perry, Charlene; Azur, Melissa; Taylor, Henry G; Gwon, Howard; Mosley, Adrian; Semon, Natalie; Links, Jonathan M

    2013-02-01

    Community disaster preparedness plans, particularly those with content that would mitigate the effects of psychological trauma on vulnerable rural populations, are often nonexistent or underdeveloped. The purpose of the study was to develop and evaluate a model of disaster mental health preparedness planning involving a partnership among three, key stakeholders in the public health system. A one-group, post-test, quasi-experimental design was used to assess outcomes as a function of an intervention designated Guided Preparedness Planning (GPP). The setting was the eastern-, northern-, and mid-shore region of the state of Maryland. Partner participants were four local health departments (LHDs), 100 faith-based organizations (FBOs), and one academic health center (AHC)-the latter, collaborating entities of the Johns Hopkins University and the Johns Hopkins Health System. Individual participants were 178 community residents recruited from counties of the above-referenced geographic area. Effectiveness of GPP was based on post-intervention assessments of trainee knowledge, skills, and attitudes supportive of community disaster mental health planning. Inferences about the practicability (feasibility) of the model were drawn from pre-defined criteria for partner readiness, willingness, and ability to participate in the project. Additional aims of the study were to determine if LHD leaders would be willing and able to generate post-project strategies to perpetuate project-initiated government/faith planning alliances (sustainability), and to develop portable methods and materials to enhance model application and impact in other health jurisdictions (scalability). The majority (95%) of the 178 lay citizens receiving the GPP intervention and submitting complete evaluations reported that planning-supportive objectives had been achieved. Moreover, all criteria for inferring model feasibility, sustainability, and scalability were met. Within the span of a six-month period

  20. Public health and terrorism preparedness: cross-border issues.

    Science.gov (United States)

    Olson, Debra; Leitheiser, Aggie; Atchison, Christopher; Larson, Susan; Homzik, Cassandra

    2005-01-01

    On December 15, 2003, the Centers for Public Health Preparedness at the University of Minnesota and the University of Iowa convened the "Public Health and Terrorism Preparedness: Cross-Border Issues Roundtable." The purpose of the roundtable was to gather public health professionals and government agency representatives at the state, provincial, and local levels to identify unmet cross-border emergency preparedness and response needs and develop strategies for addressing these needs. Representatives from six state and local public health departments and three provincial governments were invited to identify cross-border needs and issues using a nominal group process. The result of the roundtable was identification of the needs considered most important and most doable across all the focus groups. The need to collaborate on and exchange plans and protocols among agencies was identified as most important and most doable across all groups. Development of contact protocols and creation and maintenance of a contact database was also considered important and doable for a majority of groups. Other needs ranked important across the majority of groups included specific isolation and quarantine protocols for multi-state responses; a system for rapid and secure exchange of information; specific protocols for sharing human resources across borders, including emergency credentials for physicians and health care workers; and a specific protocol to coordinate Strategic National Stockpile mechanisms across border communities.

  1. Knowledge Management Framework for Emerging Infectious Diseases Preparedness and Response: Design and Development of Public Health Document Ontology.

    Science.gov (United States)

    Zhang, Zhizun; Gonzalez, Mila C; Morse, Stephen S; Venkatasubramanian, Venkat

    2017-10-11

    There are increasing concerns about our preparedness and timely coordinated response across the globe to cope with emerging infectious diseases (EIDs). This poses practical challenges that require exploiting novel knowledge management approaches effectively. This work aims to develop an ontology-driven knowledge management framework that addresses the existing challenges in sharing and reusing public health knowledge. We propose a systems engineering-inspired ontology-driven knowledge management approach. It decomposes public health knowledge into concepts and relations and organizes the elements of knowledge based on the teleological functions. Both knowledge and semantic rules are stored in an ontology and retrieved to answer queries regarding EID preparedness and response. A hybrid concept extraction was implemented in this work. The quality of the ontology was evaluated using the formal evaluation method Ontology Quality Evaluation Framework. Our approach is a potentially effective methodology for managing public health knowledge. Accuracy and comprehensiveness of the ontology can be improved as more knowledge is stored. In the future, a survey will be conducted to collect queries from public health practitioners. The reasoning capacity of the ontology will be evaluated using the queries and hypothetical outbreaks. We suggest the importance of developing a knowledge sharing standard like the Gene Ontology for the public health domain. ©Zhizun Zhang, Mila C Gonzalez, Stephen S Morse, Venkat Venkatasubramanian. Originally published in JMIR Research Protocols (http://www.researchprotocols.org), 11.10.2017.

  2. Perceived Safety at Work in the Wake of Terror: The Importance of Security Measures and Emergency Preparedness.

    Science.gov (United States)

    Nissen, Alexander; Heir, Trond

    2016-12-01

    We aimed to explore how perceived safety after terrorism is connected to views on security measures and emergency preparedness in a workplace setting. Using a questionnaire-based, cross-sectional study of ministerial employees in Norway who were targeted in a terrorist attack in 2011 (n=3344), we investigated how employees' perceived safety at work 9 to 10 months after the attack was associated with their perceptions of whether security measures were sufficiently prioritized at work, whether there had been sufficient escape and evacuation training, and whether they were confident with evacuation procedures. We found strong evidence of increasing perceived safety at work the more employees believed security measures were sufficiently prioritized at work (partially confounded by post-traumatic stress disorder), and the better their knowledge of evacuation procedures (modified by gender and education). The present study suggests that employers may enhance perceived safety at work for terror-exposed employees by showing a commitment to security measures and by ensuring employees know evacuation procedures well. More research is needed to investigate causality patterns behind the associations found in this cross-sectional study. (Disaster Med Public Health Preparedness. 2016;10:805-811).

  3. Evaluation of management of communication in the actions of preparedness and response to nuclear and radiological emergencies

    Energy Technology Data Exchange (ETDEWEB)

    Mello Filho, Mauro Otto de Cavalcanti; Beserra, Marcela Tatiana Fernandes, E-mail: maurootto@cefet-rj.br, E-mail: maurootto@gmail.com, E-mail: mbeserra@cefet-rj.br [Centro Federal de Educacao Celso Sucknow da Fonseca (CEFET-RJ), Rio de Janeiro, RJ (Brazil); Wasserman, Maria Angelica Vergara, E-mail: mwasserman@ien.gov.br [Instituto de Engenharia Nuclear (IEN/CNEN-RJ), Rio de Janeiro, RJ (Brazil); Wasserman, Julio Cesar de Faria Alvim, E-mail: geowass@vm.uff.br [Universidade Federal Fluminense (UFF), Niteroi, RJ (Brazil)

    2013-07-01

    The use of practices involving the use of ionizing radiation in diverse areas of knowledge increases every day. This growth warning about the increased probability of accidents, radiological and nuclear emergencies, with possible consequences for the public, workers and the environment. Within this scenario, it is clear that studies and reassessments of the emergency response actions, receive proposals for continuous improvement. The achievement of the objectives of the response must be sustained by tactical, operation and logistics optimized processes. The articulation through communication between the teams involved in the response must be adaptable to each accident or emergency, respecting its size. The objectives of this study is to perform an assessment on the management of communication in the actions of Preparedness and Response to Nuclear and Radiological Emergencies. This assessment is supported by best practices of the Incident Command System (ICS) and the Institute of Project Management (Project Management Institute-PMI). For this purpose, based on models referred were established performance indicators supported by the BSC (Balanced Scorecard). These indicators allowed to evaluate more objectively the performance of the communication processes associated with each phase of the response. The study resulted in the proposed model documents aiming to assist planning of communications exercises in preparation and response actions, supported and adapted the best practices of PMI. These methodologies were evaluated by real cases selected from radiological and nuclear emergencies published by the International Atomic Energy Agency (IAEA). (author)

  4. Evaluation of management of communication in the actions of preparedness and response to nuclear and radiological emergencies

    International Nuclear Information System (INIS)

    Mello Filho, Mauro Otto de Cavalcanti; Beserra, Marcela Tatiana Fernandes; Wasserman, Maria Angelica Vergara; Wasserman, Julio Cesar de Faria Alvim

    2013-01-01

    The use of practices involving the use of ionizing radiation in diverse areas of knowledge increases every day. This growth warning about the increased probability of accidents, radiological and nuclear emergencies, with possible consequences for the public, workers and the environment. Within this scenario, it is clear that studies and reassessments of the emergency response actions, receive proposals for continuous improvement. The achievement of the objectives of the response must be sustained by tactical, operation and logistics optimized processes. The articulation through communication between the teams involved in the response must be adaptable to each accident or emergency, respecting its size. The objectives of this study is to perform an assessment on the management of communication in the actions of Preparedness and Response to Nuclear and Radiological Emergencies. This assessment is supported by best practices of the Incident Command System (ICS) and the Institute of Project Management (Project Management Institute-PMI). For this purpose, based on models referred were established performance indicators supported by the BSC (Balanced Scorecard). These indicators allowed to evaluate more objectively the performance of the communication processes associated with each phase of the response. The study resulted in the proposed model documents aiming to assist planning of communications exercises in preparation and response actions, supported and adapted the best practices of PMI. These methodologies were evaluated by real cases selected from radiological and nuclear emergencies published by the International Atomic Energy Agency (IAEA). (author)

  5. Criteria for Use in Preparedness and Response for a Nuclear or Radiological Emergency. General Safety Guide (Arabic Edition)

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2012-11-01

    This Safety Guide presents a coherent set of generic criteria (expressed numerically in terms of radiation dose) that form a basis for developing the operational levels needed for decision making concerning protective and response actions. The set of generic criteria addresses the requirements established in IAEA Safety Standards Series No. GS-R-2 for emergency preparedness and response, including lessons learned from responses to past emergencies, and provides an internally consistent foundation for the application of principles of radiation protection. The publication also provides a basis for a plain language explanation of the criteria for the public and for public officials. Contents: 1. Introduction; 2. Basic considerations; 3. Framework for emergency response criteria; 4. Guidance values for emergency workers; 5. Operational criteria; Appendix I: Dose concepts and dosimetric quantities; Appendix II: Examples of default OILs for deposition, individual contamination and contamination of food, milk and water; Appendix III: Development of EALs and example EALs for light water reactors; Appendix IV: Observables on the scene of a radiological emergency.

  6. Criteria for Use in Preparedness and Response for a Nuclear or Radiological Emergency. General Safety Guide (Spanish Edition)

    International Nuclear Information System (INIS)

    2013-01-01

    This Safety Guide presents a coherent set of generic criteria (expressed numerically in terms of radiation dose) that form a basis for developing the operational levels needed for decision making concerning protective and response actions. The set of generic criteria addresses the requirements established in IAEA Safety Standards Series No. GS-R-2 for emergency preparedness and response, including lessons learned from responses to past emergencies, and provides an internally consistent foundation for the application of radiation protection. The publication also proposes a basis for a plain language explanation of the criteria for the public and for public officials. Contents: 1. Introduction; 2. Basic considerations; 3. Framework for emergency response criteria; 4. Guidance values for emergency workers; 5. Operational criteria; Appendix I: Dose concepts and dosimetric quantities; Appendix II: Examples of default oils for deposition, individual monitoring and contamination of food, milk and water; Appendix III: Development of EALs and example EALs for light water reactors; Appendix IV: Observables at the scene of a nuclear or radiological emergency

  7. Criteria for Use in Preparedness and Response for a Nuclear or Radiological Emergency. General Safety Guide (Russian Ed.)

    International Nuclear Information System (INIS)

    2012-01-01

    This Safety Guide presents a coherent set of generic criteria (expressed numerically in terms of radiation dose) that form a basis for developing the operational levels needed for decision making concerning protective and response actions. The set of generic criteria addresses the requirements established in IAEA Safety Standards Series No. GS-R-2 for emergency preparedness and response, including lessons learned from responses to past emergencies, and provides an internally consistent foundation for the application of radiation protection. The publication also proposes a basis for a plain language explanation of the criteria for the public and for public officials. Contents: 1. Introduction; 2. Basic considerations; 3. Framework for emergency response criteria; 4. Guidance values for emergency workers; 5. Operational criteria; Appendix I: Dose concepts and dosimetric quantities; Appendix II: Examples of default oils for deposition, individual monitoring and contamination of food, milk and water; Appendix III: Development of EALs and example EALs for light water reactors; Appendix IV: Observables at the scene of a nuclear or radiological emergency.

  8. Method for the development of emergency response preparedness for nuclear or radiological accidents; Metodo para el desarrollo de la preparacion de la respuesta a emergencias nucleares o radiologicas

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2000-03-01

    This report supplements IAEA emergency preparedness guidance published in the 1980s, and is consistent with the new international guidance. It provides practical advice for the development of an emergency response capability based on the potential nature and magnitude of the risk. In order to apply this method, emergency planners should have a good understanding of the basic radiological emergency response principles. Therefore, other applicable international guidance should be reviewed before using this report. This report provides a practical step-by-step method for developing integrated user, local and national emergency response capabilities. It can also be used as the basis for conducting an audit of an existing emergency response capability.

  9. Dealing with school shootings, violence: how Jonesboro and Denver hospitals met this new challenge to emergency preparedness.

    Science.gov (United States)

    1999-08-01

    Acts of violence at schools across the country committed by gun-wielding students in recent years have all too frequently, as we know by now, resulted in multiple casualties and widespread community grieving. Two of the shooting rampages noted in this report that attracted national and international media attention--one at West-side Middle School, Jonesboro, AR, on March 24, 1998, and the other at Columbine High School, Littleton, CO, on April 20, 1999--illustrate the importance of hospital preparedness and quick implementation of emergency disaster plans. In both instances, officials say their administrative, clinical, and security personnel were well prepared to handle the physical and emotional trauma caused by the tragedies. Meanwhile, a leading criminologist warns that the trend toward school violence likely will continue and provides tips for hospitals and their security directors.

  10. Accession of the Slovak Republic to EU - new legislation, new conditions and new approaches in the area of emergency preparedness

    International Nuclear Information System (INIS)

    Sladek, V.; Metke, E.

    2003-01-01

    At present after five years of Urad jadroveho dozoru (UJD) experience of using new Slovak regulations and before entering to European Union (EU), which is foreseen since May 2004 a comprehensive review of Atomic Act and all relevant decrees is being made with the objective to fit them to EU directives. On line with that also necessary organizational and technical arrangements in the area of regulatory activities including emergency preparedness are prepared. UJD participate actively in EU and IAEA projects to achieve the harmonization of its practices with EU and other countries with developed nuclear power and makes efforts to keep on a high level of nuclear safety to be a valuable member of EU

  11. The NKS-B Programme for Nordic cooperation on nuclear and radiological emergency preparedness, including measurement strategies, radioecology and waste management

    DEFF Research Database (Denmark)

    Andersson, Kasper Grann; Leino, Kaisu; Magnússon, Sigurður M.

    2014-01-01

    The NKS platform for Nordic cooperation and competence maintenance in nuclear and radiological safety comprises two parallel programmes: the NKS-R programme on nuclear reactor safety and the NKS-B programme on emergency preparedness. This paper introduces the NKS-B programme and its current...

  12. The Effect of Smartphone-Delivered Emergency Preparedness Education on Coping Knowledge among Fifth- and Sixth-Grade Elementary Schoolchildren in South Korea

    Science.gov (United States)

    Kim, Shin-Jeong; Cho, Haeryun

    2017-01-01

    This study examined the effect of an intervention on coping knowledge among fifth- and sixth-grade elementary schoolchildren who received smartphone-delivered emergency preparedness education. This was a quasi-experimental study using a pre-/posttest design. Eighty-six children were recruited to participate. The children in the experimental group…

  13. Nuclear emergency preparedness and response in Japan. Risk management and communication regarding nuclear events

    International Nuclear Information System (INIS)

    Sato, Hajime

    2011-01-01

    Severe accidents at nuclear plants can result in long-standing and large-scale disasters encompassing wide areas. The public may have special concerns regarding these plants and radiation-related health risks. It has therefore been argued that risk communications efforts, along with rigid safety management of nuclear plants, are imperative to prevent such accidents, mitigate their impacts, and alleviate public concerns. This article introduces a set of laws, acts, codes, and guidelines concerning nuclear safety in Japan. In addition, the preparedness and mitigation plans and programs for dealing with nuclear accidents and possible disasters are also discussed. Furthermore, the ongoing accidents at the Fukushima nuclear power plants following the Great East Japan Earthquake in 2011, and the government response to them are presented. A set of points regarding the management and communications of power plant accidents are discussed. (author)

  14. Integrating business continuity, emergency preparedness and emergency response: How these seemingly different disciplines can come together to make a comprehensive integrated programme.

    Science.gov (United States)

    Halsne, Julia

    2015-01-01

    The East Bay Municipal Utility District provides potable water to approximately 1.3 million customers and treats wastewater for approximately 680,000 customers on the eastern side of San Francisco Bay in Northern California. Corporate policy requires the District to create and maintain an active emergency preparedness programme to manage its critical functions during an emergency and protect people, property and the environment. The policy also requires the District to create and maintain a business continuity programme to minimise disruptions of critical business functions and enhance its capability to recover operations. For these programmes to work effectively they must be coordinated. As the programmes at the District have evolved, the natural interrelationship, overlaps and integration have become inherent in their success. To ensure integration and coordination of these programmes, the District has developed management systems to effectively drive towards a seamless overarching programme.

  15. Compliance of child care centers in Pennsylvania with national health and safety performance standards for emergency and disaster preparedness.

    Science.gov (United States)

    Olympia, Robert P; Brady, Jodi; Kapoor, Shawn; Mahmood, Qasim; Way, Emily; Avner, Jeffrey R

    2010-04-01

    To determine the preparedness of child care centers in Pennsylvania to respond to emergencies and disasters based on compliance with National Health and Safety Performance Standards for Out-of-Home Child Care Programs. A questionnaire focusing on the presence of a written evacuation plan, the presence of a written plan for urgent medical care, the immediate availability of equipment and supplies, and the training of staff in first aid/cardiopulmonary resuscitation (CPR) as delineated in Caring for Our Children: National Health and Safety Performance Standards for Out-of-Home Child Care Programs, 2nd Edition, was mailed to 1000 randomly selected child care center administrators located in Pennsylvania. Of the 1000 questionnaires sent, 496 questionnaires were available for analysis (54% usable response rate). Approximately 99% (95% confidence interval [CI], 99%-100%) of child care centers surveyed were compliant with recommendations to have a comprehensive written emergency plan (WEP) for urgent medical care and evacuation, and 85% (95% CI, 82%-88%) practice their WEP periodically throughout the year. More than 20% of centers did not have specific written procedures for floods, earthquakes, hurricanes, blizzards, or bomb threats, and approximately half of the centers did not have specific written procedures for urgent medical emergencies such as severe bleeding, unresponsiveness, poisoning, shock/heart or circulation failure, seizures, head injuries, anaphylaxis or allergic reactions, or severe dehydration. A minority of centers reported having medications available to treat an acute asthma attack or anaphylaxis. Also, 77% (95% CI, 73%-80%) of child care centers require first aid training for each one of its staff members, and 33% (95% CI, 29%-37%) require CPR training. Although many of the child care centers we surveyed are in compliance with the recommendations for emergency and disaster preparedness, specific areas for improvement include increasing the frequency

  16. Improving Latino disaster preparedness using social networks.

    Science.gov (United States)

    Eisenman, David P; Glik, Deborah; Gonzalez, Lupe; Maranon, Richard; Zhou, Qiong; Tseng, Chi-Hong; Asch, Steven M

    2009-12-01

    Culturally targeted, informal social networking approaches to improving disaster preparedness have not been empirically tested. In partnership with community health promoters and the Los Angeles County Department of Public Health, this study tested a disaster preparedness program for Latino households. This study had a community-based, randomized, longitudinal cohort design with two groups and was conducted during February-October 2007. Assessments were made at baseline and 3 months. Analyses were carried out January-October 2008. Community-based study of 231 Latinos living in Los Angeles County. Participants were randomly assigned to attending platicas (small-group discussions led by a health promoter/promotora de salud) or receiving "media" (a culturally tailored mailer). A total of 187 (81.0%) completed the 3-month follow-up. A self-reported disaster preparedness checklist was used. Among participants who did not have emergency water pre-intervention, 93.3% of those in the platica arm had it at follow-up, compared to 66.7% in the media arm (p=0.003). Among participants who did not have food pre-intervention, 91.7% in the platica arm reported it at follow-up, compared to 60.6% in the media arm (p=0.013). Finally, among participants who did not have a family communication plan pre-intervention, 70.4% in the platica arm reported one at follow-up, compared to 42.3% in the media arm (p=0.002). Although both arms improved in stockpiling water and food and creating a communication plan, the platica arm showed greater improvement than the media group.

  17. Considerations in Emergency Preparedness and Response for a State Embarking on a Nuclear Power Programme. Publication Date: June 2013 (French Edition)

    International Nuclear Information System (INIS)

    2013-01-01

    The aim of this publication is to provide a practical tool for emergency planning for States embarking on a nuclear power programme and to fulfil, in part, functions assigned to the IAEA in the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency ('Assistance Convention'). Under Article 5.a (ii) of the Assistance Convention, one function of the IAEA is to collect and disseminate to State Parties and Member States information concerning methodologies, techniques and available results of research relating to such emergencies. As established in the publication Preparedness and Response for a Nuclear or Radiological Emergency (IAEA Safety Standards Series No. GS-R-2), the practical goal of emergency response is 'to ensure that arrangements are in place for a timely, managed, controlled, coordinated and effective response at the scene, and at the local, regional, national and international level, to any nuclear or radiological emergency'. In 2011 the IAEA General Conference, in resolution GC(55)/RES/9, encouraged States 'embarking on new nuclear power programmes to take timely and proactive steps, based upon gradual and systematic application of IAEA safety standards, to establish and sustain a strong safety culture'. It also 'emphasizes the importance for all Member States to implement emergency preparedness and response mechanisms and develop mitigation measures at a national level, consistent with the IAEA's Safety Standards, for improving emergency preparedness and response, facilitating communication in an emergency and contributing to harmonization of national criteria for protective and other actions'. This publication, issued in the IAEA Emergency Preparedness and Response Series, is intended to assist on steps to be taken by States embarking on a nuclear power programme to establish effective national capabilities and arrangements of preparedness for and response to a nuclear or radiological emergency (hereinafter referred to as

  18. Report to the NRC on guidance for preparing scenarios for emergency preparedness exercises at nuclear generating stations. Draft report for comment

    International Nuclear Information System (INIS)

    Martin, G.F.; Hickey, E.E.; Moeller, M.P.; Schultz, D.H.; Bethke, G.W.

    1986-03-01

    A scenario guidance handbook was prepared to assist emergency planners in developing scenarios for emergency preparedness exercises at nuclear power plants. The handbook provides guidance for the development of the objectives of an exercise, the descriptions of scenario events and responses, and the instructions to the participants. Information concerning implementation of the scenario, critiques and findings, and generation and format of scenario data are also included. Finally, examples of manual calculational techniques for producing radiological data are included as an appendix

  19. American National Standard: for radiological emergency-preparedness exercises for nuclear power plants

    International Nuclear Information System (INIS)

    Anon.

    1979-01-01

    The development of emergency plans and procedures should provide for testing and evaluating the emergency response organization and decision making processes. To test and evaluate emergency plans and procedures, realistic scenarios should be used for drills or exercises. Emergency exercises are training activities that require a substantial effort to plan and coordinate effectively. The exercise trains personnel who would be expected to participate in the emergency response. Emergency exercises should be conducted as realistically as possible. Insofar as possible, the participants should not be notified in advance except where necessary to assure that the exercise will not cause injuries or property damage. A real emergency will naturally impart stress on emergency response personnel and their organizations. Exercises should be designed to duplicate this sense of stress insofar as practical. An important element of testing the emergency response is to ensure that provisions have been made for observation, evaluation, and critiquing each exercise. These evaluations and critiques should be used to improve and revise emergency plans and procedures where required

  20. Taiwan's Experience in Hospital Preparedness and Response for Emerging Infectious Diseases.

    Science.gov (United States)

    Kao, Hui-Yun; Ko, Hai-Yun; Guo, Peng; Chen, Chang-Hsun; Chou, Su-Mei

    The Communicable Disease Control Medical Network (CDCMN), established in 2003 after the SARS outbreak in Taiwan, has undergone several phases of modification in structure and activation. The main organizing principles of the CDCMN are centralized isolation of patients with severe highly infectious diseases and centralization of medical resources, as well as a network of designated regional hospitals like those in other countries. The CDCMN is made up of a command system, responding hospitals, and supporting hospitals. It was tested and activated in response to the H1N1 influenza pandemic in 2009-10 and the Ebola outbreak in West Africa in 2014-2016, and it demonstrated high-level functioning and robust capacity. In this article, the history, structure, and operation of the CDCMN is introduced globally for the first time, and the advantages and challenges of this system are discussed. The Taiwanese experience shows an example of a collaboration between the public health system and the medical system that may help other public health authorities plan management and hospital preparedness for highly infectious diseases.

  1. National Emergency Preparedness and Response: Improving for Incidents of National Significance

    National Research Council Canada - National Science Library

    Clayton, Christopher M

    2006-01-01

    The national emergency management system has need of significant improvement in its contingency planning and early consolidation of effort and coordination between federal, state, and local agencies...

  2. Cooperation in Nuclear Waste Management, Radiation Protection, Emergency Preparedness, Reactor Safety and Nuclear Non-Proliferation in Eastern Europe

    Energy Technology Data Exchange (ETDEWEB)

    Dassen, Lars van; Delalic, Zlatan; Ekblad, Christer; Keyser, Peter; Turner, Roland; Rosengaard, Ulf; German, Olga; Grapengiesser, Sten; Andersson, Sarmite; Sandberg, Viviana; Olsson, Kjell; Stenberg, Tor

    2009-10-15

    The Swedish Radiation Safety Authority (SSM) is trusted with the task of implementing Sweden's bilateral assistance to Russia, Ukraine, Georgia, Belarus and Armenia in the fields of reactor safety, nuclear waste management, nuclear non-proliferation as well as radiation protection and emergency preparedness. In these fields, SSM also participates in various projects financed by the European Union. The purpose of this project-oriented report is to provide the Swedish Government and other funding agencies as well as other interested audiences in Sweden and abroad with an encompassing understanding of our work and in particular the work performed during 2008. the activities are divided into four subfields: Nuclear waste management; Reactor safety; Radiation safety and emergency preparedness; and, Nuclear non-proliferation. SSM implements projects in the field of spent nuclear fuel and radioactive waste management in Russia. The problems in this field also exist in other countries, yet the concentration of nuclear and radioactive materials are nowhere higher than in north-west Russia. And given the fact that most of these materials stem from the Cold War era and remain stored under conditions that vary from 'possibly acceptable' to 'wildly appalling' it is obvious that Sweden's first priority in the field of managing nuclear spent fuel and radioactive waste lies in this part of Russia. The prioritisation and selection of projects in reactor safety are established following thorough discussions with the partners in Russia and Ukraine. For specific guidance on safety and recommended safety improvements at RBMK and VVER reactors, SSM relies on analyses and handbooks established by the IAEA in the 1990s. In 2008, there were 16 projects in reactor safety. SSM implements a large number of projects in the field of radiation protection and emergency preparedness. The activities are at a first glance at some distance from the activities covered and

  3. Emergency planning and preparedness: pre- and post-Three Mile Island

    International Nuclear Information System (INIS)

    Collins, H.E.

    1980-01-01

    The problems of radiological emergency response planning revealed by the Three-Mile Island nuclear power plant accident, are discussed. The most pressing problems are the need for an adequate planning basis, the improvement of accident assessment, the improvement and development of training programs, the need for adequate fundina and the development of emergency planning auidance. (H.K.)

  4. 45 CFR 205.45 - Federal financial participation in relation to State emergency welfare preparedness.

    Science.gov (United States)

    2010-10-01

    ... with other government and voluntary welfare agencies, and welfare-related business and professional organizations and associations, in developing emergency operating plans and attaining operational readiness; (5..., as prescribed in “Guidelines for the Preparation of State Emergency Welfare Services Plan” issued by...

  5. Preliminary report on operational guidelines developed for use in emergency preparedness and response to a radiological dispersal device incident.

    Energy Technology Data Exchange (ETDEWEB)

    Yu, C.; Cheng, J.-J.; Kamboj, S.; Domotor, S.; Wallo, A.; Environmental Science Division; DOE

    2006-12-15

    This report presents preliminary operational guidelines and supporting work products developed through the interagency Operational Guidelines Task Group (OGT). The report consolidates preliminary operational guidelines, all ancillary work products, and a companion software tool that facilitates their implementation into one reference source document. The report is intended for interim use and comment and provides the foundation for fostering future reviews of the operational guidelines and their implementation within emergency preparedness and response initiatives in the event of a radiological dispersal device (RDD) incident. The report principally focuses on the technical derivation and presentation of the operational guidelines. End-user guidance providing more details on how to apply these operational guidelines within planning and response settings is being considered and developed elsewhere. The preliminary operational guidelines are categorized into seven groups on the basis of their intended application within early, intermediate, and long-term recovery phases of emergency response. We anticipate that these operational guidelines will be updated and refined by interested government agencies in response to comments and lessons learned from their review, consideration, and trial application. This review, comment, and trial application process will facilitate the selection of a final set of operational guidelines that may be more or less inclusive of the preliminary operational guidelines presented in this report. These and updated versions of the operational guidelines will be made available through the OGT public Web site (http://ogcms.energy.gov) as they become finalized for public distribution and comment.

  6. TACIS Belarus - an overview of results and planned activities in the field of radiation protection, emergency preparedness and waste management

    Energy Technology Data Exchange (ETDEWEB)

    Ackermann, L. [Gesellschaft fur Anlagen- und Reaktorsicherheit (GRS) mbH, Berlin (Germany)

    2006-07-01

    Since 1996 the nuclear safety authorities of the Republic of Belarus were assisted with TACIS activities entitled: 'Transfer of Western European Regulatory Methodology and Practices to the Nuclear Safety Authorities of Belarus'. Considering the results of the Exploratory Mission which was arranged in 1996 the Regulatory Assistance Projects BE/RA/01 and BE/RA/02 were successful realised in 1998/1999 and in 2003/2004, respectively. These projects were financed by the Commission of the European Communities (EC) and implemented by a consortium of Technical Support Organisations (TSOs) from France (IRSN (former IPSN)), Germany (GRS) and Sweden (SSI) led by Riskaudit IRSN/GRS International. Beneficiary of the projects were Promatomnadzor at the beginning and later the Ministry for Emergency Situations of the Republic of Belarus each in connection with the Republican Centre of Radiation Control and Monitoring (RCRCM). The actual project BE/RA/03 'Regulatory Assistance to Belarus in the Field of Nuclear Safety and Radiation Protection including Radiological Emergency Preparedness' was started by the end of August 2006. (author)

  7. Design and quantification of an extreme winter storm scenario for emergency preparedness and planning exercises in California

    Science.gov (United States)

    Dettinger, M.D.; Martin, Ralph F.; Hughes, M.; Das, T.; Neiman, P.; Cox, D.; Estes, G.; Reynolds, D.; Hartman, R.; Cayan, D.; Jones, L.

    2012-01-01

    The USGS Multihazards Project is working with numerous agencies to evaluate and plan for hazards and damages that could be caused by extreme winter storms impacting California. Atmospheric and hydrological aspects of a hypothetical storm scenario have been quantified as a basis for estimation of human, infrastructure, economic, and environmental impacts for emergency-preparedness and flood-planning exercises. In order to ensure scientific defensibility and necessary levels of detail in the scenario description, selected historical storm episodes were concatentated to describe a rapid arrival of several major storms over the state, yielding precipitation totals and runoff rates beyond those occurring during the individual historical storms. This concatenation allowed the scenario designers to avoid arbitrary scalings and is based on historical occasions from the 19th and 20th Centuries when storms have stalled over the state and when extreme storms have arrived in rapid succession. Dynamically consistent, hourly precipitation, temperatures, barometric pressures (for consideration of storm surges and coastal erosion), and winds over California were developed for the so-called ARkStorm scenario by downscaling the concatenated global records of the historical storm sequences onto 6- and 2-km grids using a regional weather model of January 1969 and February 1986 storm conditions. The weather model outputs were then used to force a hydrologic model to simulate ARkStorm runoff, to better understand resulting flooding risks. Methods used to build this scenario can be applied to other emergency, nonemergency and non-California applications. ?? 2011 The Author(s).

  8. TACIS Belarus - an overview of results and planned activities in the field of radiation protection, emergency preparedness and waste management

    International Nuclear Information System (INIS)

    Ackermann, L.

    2006-01-01

    Since 1996 the nuclear safety authorities of the Republic of Belarus were assisted with TACIS activities entitled: 'Transfer of Western European Regulatory Methodology and Practices to the Nuclear Safety Authorities of Belarus'. Considering the results of the Exploratory Mission which was arranged in 1996 the Regulatory Assistance Projects BE/RA/01 and BE/RA/02 were successful realised in 1998/1999 and in 2003/2004, respectively. These projects were financed by the Commission of the European Communities (EC) and implemented by a consortium of Technical Support Organisations (TSOs) from France (IRSN (former IPSN)), Germany (GRS) and Sweden (SSI) led by Riskaudit IRSN/GRS International. Beneficiary of the projects were Promatomnadzor at the beginning and later the Ministry for Emergency Situations of the Republic of Belarus each in connection with the Republican Centre of Radiation Control and Monitoring (RCRCM). The actual project BE/RA/03 'Regulatory Assistance to Belarus in the Field of Nuclear Safety and Radiation Protection including Radiological Emergency Preparedness' was started by the end of August 2006. (author)

  9. Arrangements for preparedness for a nuclear or radiological emergency. Safety guide (Spanish Edition); Disposiciones de preparacion para emergencias nucleares o radiologicas. Guia de seguridad

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2010-07-15

    Under the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency, one function of the IAEA is to collect and disseminate to States Parties and Member States information concerning methodologies, techniques and available results of research relating to response to such emergencies. The primary objectives of this Safety Guide, co-sponsored by FAO, OCHA, ILO, PAHO and WHO, are to provide guidance on preparedness and response for a nuclear or radiological emergency, to describe appropriate responses to a range of emergencies, and to provide background information on past experience, thus helping the user to better implement arrangements that address the underlying issues.

  10. Preparedness of the operating organization (licensee) for emergencies at nuclear power plants

    International Nuclear Information System (INIS)

    1982-01-01

    This Guide outlines the principal elements in devising and implementing emergency plans so that actions to be taken in accordance with the plans ensure an orderly and timely decision-making process and the availability of essential personnel, equipment, supplies and services. Principal elements included in the Guide are: (1) An outline for the basis and content of emergency planning, and the activities to be covered; (2) The responsibilities and arrangements of the operating organization (licensee) in establishing and implementing the Operating Organization Emergency Plan; (3) The liaison between the operating organization (licensee), the regulatory body, and public authorities in relation to the Operating Organization Emergency Plan; (4) Detailed measures to protect persons on-site, and guidance with respect to protection of the public off-site; (5) Facilities and equipment to cope with the emergency situation; (6) Aspects relevant to maintaining the plan and the organization in operational readiness. Although this Guide does not consider emergencies related to the off-site transportation of radioactive materials or new or irradiated fuel, many of its recommendations may be useful in planning how to cope with such emergencies

  11. Emergency response planning and preparedness for transport accidents involving radioactive material

    International Nuclear Information System (INIS)

    1988-01-01

    The purpose of this Guide is to provide assistance to public authorities and others (including consignors and carriers of radioactive materials) who are responsible for ensuring safety in establishing and developing emergency response arrangements for responding effectively to transport accidents involving radioactive materials. This Guide is concerned mainly with the preparation of emergency response plans. It provides information which will assist those countries whose involvement with radioactive materials is just beginning and those which have already developed their industries involving radioactive materials and attendant emergency plans, but may need to review and improve these plans. The need for emergency response plans and the ways in which they are implemented vary from country to country. In each country, the responsible authorities must decide how best to apply this Guide, taking into account the actual shipments and associated hazards. In this Guide the emergency response planning and response philosophy are outlined, including identification of emergency response organizations and emergency services that would be required during a transport accident. General consequences which could prevail during an accident are described taking into account the IAEA Regulations for the Safe Transport of Radioactive Material. 43 refs, figs and tabs

  12. Emergency preparedness for nuclear electric generating facilities in foreign countries: A brief survey of practices

    Energy Technology Data Exchange (ETDEWEB)

    Schuller, C R [Battelle Human Affairs Research Centers, Seattle, WA (United States); Marcus, A A; Hanhardt, Jr, A M; Selvin, M; Huelshoff, M [Pacific Northwest Laboratory, Richland, WA (United States)

    1980-12-01

    This report summarizes the emergency plans for accidents at nuclear power plants in Germany, Sweden, Switzerland, the United Kingdom, Canada, and France. Soviet Union documents were examined, but no published information was found on the subject. The study of foreign plans was to determine what U.S. planners might learn that could be useful to them. Plans of the foreign countries were published before the nuclear accident at Three Mile Island and reflected a generally accepted premise that a serious nuclear emergency would never occur. Therefore, there are few ideas of immediate use to U.S. planners. Most countries have since begun to re-examine their emergency planning. The study also discusses the emergency action levels, warning systems, evacuation management and procedures, and public information and education for people living near nuclear power plants and defines roles of nuclear facility operators and roles of the government. (author)

  13. Emergency preparedness and response in the Commonwealth of Pennsylvania - the Three Mile Island incident

    International Nuclear Information System (INIS)

    Henderson, O.K.

    1981-01-01

    This paper addresses the emergency response mechanism and legal basis in effect in the Commonwealth of Pennsylvania at the time of the Three Mile Island incident. It reviews the sequence of events as they directly affected the Pennsylvania Emergency Management Agency and examines the method used by the Agency to discharge its responsibilities. Finally, the paper lists some of the lessons learned from the Three Mile Island experience. (author)

  14. Emergency preparedness post-9/11 enhancements at US nuclear plants

    International Nuclear Information System (INIS)

    Sullivan, R.L.

    2005-01-01

    Full text: In the wake of the terrorist attacks of 9-11, the US Nuclear Regulatory Commission (NRC) took several actions to improve the security profile and emergency response of its licensees. In early 2002 the commission issued orders to its nuclear power plant licensees which included changes to emergency plans, the performance of staffing adequacy reviews, changes to augmentation practices and the establishment of alternative facilities. Since that time NRC has implemented a force-on-force exercise program that includes emergency response. This program has helped licensees improve their response by testing procedures under simulated attack conditions. More recently, licensees have begun a program to enhance drills and exercises through the use of security event based scenarios. These drills will enhance previous practice and focus on two emerging issues: improving the interface between emergency response, security response and operations during security events and recovery from the loss of plant equipment due to terrorist acts. Additional areas of enhancement such as protective actions for plant personnel will also be discussed and the status of actions to date will be provided. (author)

  15. Stockpile tritium production from fusion

    International Nuclear Information System (INIS)

    Lokke, W.A.; Fowler, T.K.

    1986-01-01

    A fusion breeder holds the promise of a new capability - ''dialable'' reserve capacity at little additional cost - that offers stockpile planners a new way to deal with today's uncertainties in forecasting long range needs. Though still in the research stage, fusion can be developed in time to meet future military requirements. Much of the necessary technology will be developed by the ongoing magnetic fusion energy program. However, a specific program to develop the nuclear technology required for materials production is needed if fusion is to become a viable option for a new production complex around the turn of the century

  16. Nuclear emergency preparedness. Final report of the Nordic Nuclear Safety Research Project BOK-1

    DEFF Research Database (Denmark)

    Lauritzen, B.

    2002-01-01

    Final report of the Nordic Nuclear Safety Research project BOK-1. The BOK-1 project, “Nuclear Emergency Preparedness”, was carried out in 1998-2001 with participants from the Nordic and Baltic Sea regions. The project consists of six sub-projects:Laboratory measurements and quality assurance (BOK-1.......1); Mobile measurements and measurement strategies (BOK-1.2); Field measurements and data assimilation (BOK-1.3); Countermeasures in agriculture and forestry (BOK-1.4); Emergency monitoring in theNordic and Baltic Sea countries (BOK-1.5); and Nuclear exercises (BOK-1.6). For each sub-project, the project...

  17. Games, simulations, and learning in emergency preparedness: a review of the literature.

    Science.gov (United States)

    Olson, Debra K; Hoeppner, Mary M; Scaletta, Kurtis; Peck, Megan; Newkirk, Ryan

    2012-01-01

    Between 2007 and 2011, a comprehensive review of the literature was conducted to identify the usefulness of educational games and simulations in developing and evaluating the competency of public health professionals to prepare for, respond to, and recover from emergencies. This article presents an overview of the literature related to the use of games and simulations in education and training, summarizes key findings, identifies key features of gaming simulation design for educational effectiveness, and suggests that use of these emerging teaching and learning strategies be considered in the development of a comprehensive approach for creating and evaluating competency.

  18. Emergency preparedness of Research Center for Radiation medicine and its hospital to admit and treat the patients with signs of acute radiation sickness

    International Nuclear Information System (INIS)

    Belyi, D. A.; Khomenko, V. I.; Bebeshko, V. G.

    2009-01-01

    After the Chernobyl accident, the Research Center for Radiation Medicine (RCRM) was established in Kiev (Ukraine). Its main task was to maintain a high level of emergency preparedness and be ready to examine and treat patients who suffer as a result of hypothetical radiation accident. Based on the previous experience, this institution's specialists worked out new diagnostic criteria and drug treatment schemata for acute radiation sickness, created a database on 75 patients with this diagnosis and improved educational programmes for medical students and physicians working in the field of radiation medicine. RCRM collaborates fruitfully with western partners through the joint research projects and connects with the World Health Organisation's Radiation Emergency Medical Preparedness and Assistance Network centre. Collaboration with Kiev Center for Bone Marrow Transplantation allows RCRM to use aseptic wards having highly filtered air for the treatment of most severely irradiated patients. (authors)

  19. 10 CFR Appendix E to Part 50 - Emergency Planning and Preparedness for Production and Utilization Facilities

    Science.gov (United States)

    2010-01-01

    ... of the time required to evacuate various sectors and distances within the plume exposure pathway EPZ.... Implementing Procedures VI. Emergency Response Data System I. Introduction Each applicant for a construction... preliminary safety analysis report for a construction permit and submitted as part of the final safety...

  20. Promising Practices: A Case Study on Public Health Emergency Preparedness at a University

    Science.gov (United States)

    Mathes, Amy L.

    2013-01-01

    There is little published literature on operational coordination during a real time disaster regardless of the setting. This study describes a university's emergency management plan and its execution in response to a specific natural disaster, the May 8, 2009 "inland hurricane," which was later classified as a "Super Derecho."…

  1. Emergency planning and preparedness for re-entry of a nuclear powered satellite

    International Nuclear Information System (INIS)

    1996-01-01

    This safety practice report provides a general overview of the management of incidents or emergencies that may be created when nuclear power sources employed in space systems accidentally re-enter the earth's atmosphere and impact on its surface. 8 refs, 4 figs, 7 tabs

  2. Emergency Preparedness technology support to the Health and Safety Executive (HSE), Nuclear Installations Inspectorate (NII) of the United Kingdom

    International Nuclear Information System (INIS)

    O'Kula, K.R.

    1994-03-01

    The Nuclear Installations Inspectorate (NII) of the United Kingdom (UK) suggested the use of an accident progression logic model method developed by Westinghouse Savannah River Company (WSRC) and Science Applications International Corporation (SAIC) for K Reactor to predict the magnitude and timing of radioactivity releases (the source term) based on an advanced logic model methodology. Predicted releases are output from the personal computer-based model in a level-of-confidence format. Additional technical discussions eventually led to a request from the NII to develop a proposal for assembling a similar technology to predict source terms for the UK's advanced gas-cooled reactor (AGR) type. To respond to this request, WSRC is submitting a proposal to provide contractual assistance as specified in the Scope of Work. The work will produce, document, and transfer technology associated with a Decision-Oriented Source Term Estimator for Emergency Preparedness (DOSE-EP) for the NII to apply to AGRs in the United Kingdom. This document, Appendix A is a part of this proposal

  3. Fear of Terrorism in New York After the September 11 Terrorist Attacks: Implications for Emergency Mental Health and Preparedness

    Science.gov (United States)

    Boscarino, Joseph A.; Figley, Charles R.; Adams, Richard E.

    2009-01-01

    To examine the public’s response to future terrorist attacks, we surveyed 1,001 New Yorkers in the community one year after the September 11 attacks. Overall, New Yorkers were very concerned about future terrorist attacks and also concerned about attacks involving biological or nuclear weapons. In addition, while most New Yorkers reported that if a biological or nuclear attack occurred they would evaluate available information before evacuating, a significant number reported they would immediately evacuate, regardless of police or public health communications to the contrary. The level of public concern was significantly higher on all measures among New York City and Long Island residents (downstate) compared to the rest of the state. A model predicting higher fear of terrorism indicated that downstate residents, women, those 45 to 64 years old, African Americans and Hispanics, those with less education/income, and those more likely to flee, were more fearful of future attacks. In addition, making disaster preparations and carefully evaluating emergency information also predicted a higher level of fear as well. A second model predicting who would flee suggested that those more likely to evaluate available information were less likely to immediately evacuate, while those with a higher fear of future attacks were more likely to flee the area. Given these findings and the possibility of future attacks, mental health professionals need to be more involved in preparedness efforts, especially related to the psychological impact of attacks involving weapons of mass destruction. PMID:14730761

  4. Can the Social Vulnerability Index Be Used for More Than Emergency Preparedness? An Examination Using Youth Physical Fitness Data.

    Science.gov (United States)

    Gay, Jennifer L; Robb, Sara W; Benson, Kelsey M; White, Alice

    2016-02-01

    The Social Vulnerability Index (SVI), a publicly available dataset, is used in emergency preparedness to identify communities in greatest need of resources. The SVI includes multiple socioeconomic, demographic, and geographic indicators that also are associated with physical fitness and physical activity. This study examined the utility of using the SVI to explain variation in youth fitness, including aerobic capacity and body mass index. FITNESSGRAM data from 2,126 Georgia schools were matched at the census tract level with SVI themes of socioeconomic, household composition, minority status and language, and housing and transportation. Multivariate multiple regression models were used to test whether SVI factors explained fitness outcomes, controlling for grade level (ie, elementary, middle, high school) and stratified by gender. SVI themes explained the most variation in aerobic fitness and body mass index for both boys and girls (R2 values 11.5% to 26.6%). Socioeconomic, Minority Status and Language, and Housing and Transportation themes were salient predictors of fitness outcomes. Youth fitness in Georgia was related to socioeconomic, demographic, and geographic themes. The SVI may be a useful needs assessment tool for health officials and researchers examining multilevel influences on health behaviors or identifying communities for prevention efforts.

  5. Response to an emerging vector-borne disease: surveillance and preparedness for Schmallenberg virus.

    Science.gov (United States)

    Roberts, H C; Elbers, A R W; Conraths, F J; Holsteg, M; Hoereth-Boentgen, D; Gethmann, J; van Schaik, G

    2014-10-15

    Surveillance for new emerging animal diseases from a European perspective is complicated by the non-harmonised approach across Member States for data capture, recording livestock populations and case definitions. In the summer of 2011, a new vector-borne Orthobunyavirus emerged in Northern Europe and for the first time, a coordinated approach to horizon scanning, risk communication, data and diagnostic test sharing allowed EU Member States to develop early predictions of the disease, its impact and risk management options. There are many different systems in place across the EU for syndromic and scanning surveillance and the differences in these systems have presented epidemiologists and risk assessors with concerns about their combined use in early identification of an emerging disease. The emergence of a new disease always will raise challenging issues around lack of capability and lack of knowledge; however, Schmallenberg virus (SBV) gave veterinary authorities an additional complex problem: the infection caused few clinical signs in adult animals, with no indication of the possible source and little evidence about its spread or means of transmission. This paper documents the different systems in place in some of the countries (Germany and the Netherlands) which detected disease initially and predicted its spread (to the UK) and how information sharing helped to inform early warning and risk assessment for Member States. Microarray technology was used to identify SBV as a new pathogen and data from the automated cattle milking systems coupled with farmer-derived data on reporting non-specific clinical signs gave the first indications of a widespread issue while the UK used meteorological modelling to map disease incursion. The coordinating role of both EFSA and the European Commission were vital as are the opportunities presented by web-based publishing for disseminating information to industry and the public. The future of detecting emerging disease looks more

  6. Designing of a mobile decontamination facility (MDF) for preparedness and response to nuclear/radiological emergencies

    International Nuclear Information System (INIS)

    Joshi, G.H.; Garai, S.K.; Chatterjee, M.K.; Pradeepkumar, K.S.; Sharma, D.N.

    2005-01-01

    During a radiological emergency in public domain, likelihood of radioactive contamination cannot be completely ruled out. Timely and effective decontamination can significantly reduce possible external and internal radiation exposure to public. The objective of designing of a mobile decontamination facility is to develop the capability for decontaminating affected persons in case of any radiological emergency in public domain. A fully equipped decontamination facility on the wheels will be able to reach at the scene and will be able to decontaminate a large number of victims with the help of optimized decontamination procedures in short duration avoiding unwanted radiation exposure. This self-supporting decontamination facility is designed to be equipped with sufficient number of radiation monitoring instruments, equipments for decontamination, decontamination agents etc. (author)

  7. Sampling methods for pasture, soil and deposition for radioactivity emergency preparedness in the Nordic countries

    International Nuclear Information System (INIS)

    Isaksson, M.

    2002-01-01

    The aim of this work was to compare sampling techniques for pasture, soil and deposition, planned for radioactivity surveillance in emergency situations in the Nordic countries. The basis of the survey was a questionnaire, sent to radiation protection authorities and laboratories. Sampling of pasture is performed with a cutting height between 1 and 5 cm above the ground from an area of about 1 m 2 . The sampling plots are usually randomly positioned. Soil samples, 3 to 20 cores in various patterns, are generally taken by a corer of varying diameter. For deposition sampling, precipitation collectors of different sizes are used. When comparing results, the differences between laboratories should be borne in mind so that proper corrections can be made. It is, however, important to consider that, especially in an emergency situation, the use of standardised methods may worsen the results if these methods are not part of the daily work. (orig.)

  8. Enhancing Emergency Preparedness and Response: Partnering with the Private Business Sector

    Science.gov (United States)

    2009-12-01

    Walmart, the world’s largest retailer, supplied 2,498 trailers of emergency merchandise , opened temporary mobile pharmacies, and used its stores to...World Trade Center (WTC) site over to safety in New Jersey, and restaurants , such as McDonalds, supplying food. Even chefs from local restaurants ...intentions, the unintended consequence leaves businesses unable to receive their routine deliveries of merchandise . The idea appears to be simple

  9. Survey of emergency medicine resident debt status and financial planning preparedness.

    Science.gov (United States)

    Glaspy, Jeffrey N; Ma, O John; Steele, Mark T; Hall, Jacqueline

    2005-01-01

    Most resident physicians accrue significant financial debt throughout their medical and graduate medical education. The objective of this study was to analyze emergency medicine resident debt status, financial planning actions, and educational experiences for financial planning and debt management. A 22-item questionnaire was sent to all 123 Accreditation Council on Graduate Medical Education-accredited emergency medicine residency programs in July 2001. Two follow-up mailings were made to increase the response rate. The survey addressed four areas of resident debt and financial planning: 1) accrued debt, 2) moonlighting activity, 3) financial planning/debt management education, and 4) financial planning actions. Descriptive statistics were used to analyze the data. Survey responses were obtained from 67.4% (1,707/2,532) of emergency medicine residents in 89 of 123 (72.4%) residency programs. Nearly one half (768/1,707) of respondents have accrued more than 100,000 dollars of debt. Fifty-eight percent (990/1,707) of all residents reported that moonlighting would be necessary to meet their financial needs, and more than 33% (640/1,707) presently moonlight to supplement their income. Nearly one half (832/1,707) of residents actively invested money, of which online trading was the most common method (23.3%). Most residents reported that they received no debt management education during residency (82.1%) or medical school (63.7%). Furthermore, 79.1% (1,351/1,707) of residents reported that they received no financial planning lectures during residency, although 84.2% (1,438/1,707) reported that debt management and financial planning education should be available during residency. Most emergency medicine residency programs do not provide their residents with financial planning education. Most residents have accrued significant debt and believe that more financial planning and debt management education is needed during residency.

  10. Study on the Enhancement of Nuclear Control and Emergency Preparedness Systems in KAERI

    Energy Technology Data Exchange (ETDEWEB)

    So, Dong Sup; Lee, T. Y.; Lee, B. D.; Yoo, J. G.; Lee, G. Y.; Lee, S. H.; Kim, H. J.; Kim, H. S.; Park, H. J

    2006-12-15

    The purposes of the study are: to implement obligations specified in treaties and domestic laws and to enhance the nuclear transparency suffered from a careless experiment, being issued in 2004, with nuclear material; and to prepare nuclear emergency and to settle down effectively the emergency situation. We established an infrastructure of the system of accounting for and control of nuclear material. and installed systematic measures to deal the cases of radiation accidents. In the first year (2006) the project is focused on the development of two systems: an information treatment system that controls and manages the nuclear material in facilities at KAERI; and a real-time surveillance system that integrates the safety system information of nuclear facilities in KAERI. The development of information treatment system for IAEA safeguards and facility-level accountancy has been initiated in October, 2006, and planned to complete by October 2007. Communication channels between the emergency control head-quarter and the briefing rooms of facilities and accident areas are established to implement an advanced supervision system for radiation accidents. Also, a surveillance system, that collects and supervises the facilities' safety system parameters in real time, is installed and confirmed that the display system of the safety parameters is stably operating.

  11. The Enhancement of Nuclear Control and Emergency Preparedness Systems in KAERI

    International Nuclear Information System (INIS)

    Lee, Goan Yup; Lee, B. D.; Kim, J. S.; Park, H. J.

    2008-12-01

    The objective of this study is to foster international environment for peaceful nuclear technology based on the international transparency with respect to the control, management and surveillance system. In this regards, this study establishes, operates and upgrades the nuclear control and management information system of the KAERI that assumed the prerequisite means for Integrated Safeguards systems of the IAEA which is implemented from the July of 2008. It is also included the radiological emergency system that contains the safety information surveillance system in KAERI to meet the national legislative requirements. The nuclear control and management information system of the KAERI could be controlled and managed the accounting information of the nuclear facility with on-line manner. This system enhances transparency of accounting management of the KAERI in terms of effective ways for the Agency inspectors and national inspectors to implement the no-notice inspection under the Integrated Safeguards system. To complete the nuclear safety information collecting and monitoring system at EOF for KAERI, the real-time remote monitoring systems for RIPF, IMEF, PIEF were established. In addition, after the review of the abnormal condition of RMS data, the notification system for a radiation abnormal condition at nuclear facilities was operated. And also, the server of emergency management system was improved, the emergency situation notification system to all KAERI and KNF site was established

  12. Assessing a decade of public health preparedness: progress on the precipice?

    Science.gov (United States)

    Gursky, Elin A; Bice, Gregory

    2012-03-01

    September 11 and the subsequent anthrax attacks marked the beginning of significant investment by the federal government to develop a national public health emergency response capability. Recognizing the importance of the public health sector's contribution to the burgeoning homeland security enterprise, this investment was intended to convey a "dual benefit" by strengthening the overall public health infrastructure while building preparedness capabilities. In many instances, federal funds were used successfully for preparedness activities. For example, electronic health information networks, a Strategic National Stockpile, and increased interagency cooperation have all contributed to creating a more robust and prepared enterprise. Additionally, the knowledge of rarely seen or forgotten pathogens has been regenerated through newly established public health learning consortia, which, too, have strengthened relationships between the practice and academic communities. Balancing traditional public health roles with new preparedness responsibilities heightened public health's visibility, but it also presented significant complexities, including expanded lines of reporting and unremitting inflows of new guidance documents. Currently, a rapidly diminishing public health infrastructure at the state and local levels as a result of federal budget cuts and a poor economy serve as significant barriers to sustaining these nascent federal public health preparedness efforts. Sustaining these improvements will require enhanced coordination, collaboration, and planning across the homeland security enterprise; an infusion of innovation and leadership; and sustained transformative investment for governmental public health.

  13. Technological considerations in emergency instrumentation preparedness. Phase II-D. Evaluation testing and calibration methodology for emergency radiological instrumentation

    International Nuclear Information System (INIS)

    Bramson, P.E.; Andersen, B.V.; Fleming, D.M.; Kathren, R.L.; Mulhern, O.R.; Newton, C.E.; Oscarson, E.E.; Selby, J.M.

    1976-09-01

    In response to recommendations from the Advisory Committee on Reactor Safeguards, the Division of Operational Safety, U.S. ERDA has contracted with Battelle, Pacific Northwest Laboratories to survey the adequacy of existing instrumentation at nuclear fuel cycle facilities to meet emergency requirements and to develop technical criteria for instrumentation systems to be used in assessment of environmental conditions following plant emergencies. This report, the fifth in a series, provides: (1) calibration methods to assure the quality of radiological measurements and (2) testing procedures for determining whether an emergency radiological instrument meets the performance specifications. Three previous reports in this series identified the emergency instrumentation needs for power reactors, mixed oxide fuel plants, and fuel reprocessing facilities. Each of these three reports contains a Section VI, which sets forth applicable radiological instrument performance criteria and calibration requirements. Testing and calibration procedures in this report have been formatted in two parts: IV and V, each divided into three subsections: (1) Power Reactors, (2) Mixed Oxide Fuel Plants, and (3) Fuel Reprocessing Facilities. The three performance criteria subsections directly coincide with the performance criteria sections of the previous reports. These performance criteria sections have been reproduced in this report as Part III with references of ''required action'' added

  14. Experience-based knowledge in nuclear and radiological emergency preparedness - involvement of national stake holders. Report from the EURANOS project; Erfaringsbasert kunnskap i norsk atomberedskap - medvirkning fra beroerte parter. Rapport fra EURANOS-prosjektet

    Energy Technology Data Exchange (ETDEWEB)

    Bay-Larsen, I.; Oughton, D.; Liland, A.; Eikelmann, I.M.; Hansen, H.S.

    2009-05-15

    The report identifies and summarises the most important experiences related to long term rehabilitation of contaminated areas after the Chernobyl accident, as phrased by representatives from the agricultural sector (including reindeer herding), primary health care, academia, NGOs, local and regional authorities, as well as national authorities with responsibilities for emergency preparedness within their sector. It also includes recommendations for future collaboration to ensure competence and stake holder involvement in Norwegian nuclear and radiological emergency preparedness. (Author)

  15. Radiological Emergency Preparedness after the Early Phase of an Accident : Focusing on an Air Contamination Event

    International Nuclear Information System (INIS)

    Jeong, Hyo Joon; Hwang, Won Tae; Kim, Eun Han; Han, Moon Hee

    2010-01-01

    Toxic materials in an urban area can be caused by a variety of events, such as accidental releases on industrial complexes, accidents during the transportation of hazardous materials and intentional explosions. Most governments around the world and their citizens have become increasingly worried about intentional accidents in urban area after the 911 terrorist attack in the United States of America. Even though there have been only a few attempted uses of Radiological Dispersal Devices (RDDs), accidental releases have occurred many times at commercial nuclear power plants and nuclear waste disposal sites. When an intentional release of radioactive materials occurs in an urban area, air quality for radioactive materials in the environment is of great importance to take action for countermeasures and environmental risk assessments. Atmospheric modeling is part of the decision making tasks and that it is particularly important for emergency managers as they often need to take actions quickly on very inadequate information(1). A simple model such as HOTSPOT required wind direction and source term would be enough to support the decision making in the early phase of an accident, but more sophisticated atmospheric modeling is required to adjust decontamination area and relocation etc after the early phase of an accidental event. In this study, we assume an explosion of 137 Cs using RDDs in the metropolitan area of Soul, South Korea. California Puff Model (CALPUFF) is used to calculate an atmospheric dispersion and transport for 137 Cs. Atmospheric dispersion and quantitative radiological risk analysis for 137 Cs were performed assuming an intentional explosion in the metropolitan area of Soul, South Korea after the early phase of emergency. These kinds of atmospheric modeling and risk analysis could provide a means for decision makers to take action on important issues such as the cleanup of the contaminated area and countermeasures to protect the public caused by

  16. Impact of Fukushima and Mayapuri and lessons for emergency preparedness at national level

    International Nuclear Information System (INIS)

    Pradeepkumar, K.S.

    2012-01-01

    Radiation related news are always found to generate curiosity and unimaginable level of concern and fear whether it is related to release of radioactivity to environment or due to a suspected presence of radioactive material in public domain. As demonstrated world over, after the nuclear accidents at TMI, Chernobyl and Fukushima and the radiological emergencies at Goiania, Tammiku, Lilo, Moroco, Mexico, Yanango and Mayapuri, the number of people believing that they are affected by radiation is found to be many orders of magnitude in comparison to those who may get affected. During such scenario, including transboundary emergency situation, the emergency response capability, finds it difficult to match with the requirement of large scale radiation monitoring of environment and persons and quick implementation of counter measures in anticipation to any worsening emergency scenario (including due to transboundary) or panic spread due to wrong information. Nuclear explosions at Hiroshima and Nagasaki created fear among the public of the uses of nuclear energy and ionizing radiation. The Japan data from the large number of persons affected by the radiation due to nuclear explosion though helped in the generation of the risk factors by ICRP, the LNT concept conservatively used for large collective dose scenario always created misconception and fear among the society. Large number of cancers attributed to radiation exposure predicted for Chernobyl releases is an example, though even after 25 years except for the thyroid cancer cases, internationally there is no statistically significant evidence for the additional cancer risk due to Chernobyl accident. The 'fear of radiation from nuclear reactors' has grown to that extent that the economic and human lives lost due to Tsunami in Japan are completely forgotten compared to relatively insignificant radiological consequences from Fukushima. It is sad to say that individual exposure much lower than 100 mSv due to Chernobyl

  17. Survey of the WHO-REMPAN network's capability for strengthening preparedness for radiological and nuclear emergencies

    Energy Technology Data Exchange (ETDEWEB)

    Kumagai, A [Takashi Nagai Memorial International Hibakusha Medical Centre, Nagasaki Univ. Hospital, Nagasaki (Japan); Carr, Z [Dept. of Public Health and Environment, Health Security and Environment Cluster, World Health Organization, Geneva (Switzerland); Akira, O [Takashi Nagai Memorial International Hibakusha Medical Centre, Nagasaki Univ. Hospital, Nagasaki (Japan); Christie, D [Dept. of Public Health and Environment, Health Security and Environment Cluster, World Health Organization, Geneva (Switzerland); Yamashita, S [Takashi Nagai Memorial International Hibakusha Medical Centre, Nagasaki Univ. Hospital, Nagasaki (Japan); Fukushima Medical Univ. (Japan)

    2012-07-01

    This paper investigates the capacity of the World Health Organization (WHO)-REMPAN network in responding to radiological incidents and nuclear emergencies. A survey developed by the WHO Secretariat and Nagasaki Univ. was sent to all 40 WHO-REMPAN collaborating centres and liaison institutes in order to verify the current situation of the network, identify needs and collect suggestions for future improvements. Most of the responding institutions said they were satisfied with the current status of the network. However, several responses to the survey indicate that better internal communication is needed, as well as a position document to specify the roles, rights and responsibilities of the network members. (authors)

  18. Survey of the WHO-REMPAN network's capability for strengthening preparedness for radiological and nuclear emergencies

    International Nuclear Information System (INIS)

    Kumagai, A.; Carr, Z.; Akira, O.; Christie, D.; Yamashita, S.

    2012-01-01

    This paper investigates the capacity of the World Health Organization (WHO)-REMPAN network in responding to radiological incidents and nuclear emergencies. A survey developed by the WHO Secretariat and Nagasaki Univ. was sent to all 40 WHO-REMPAN collaborating centres and liaison institutes in order to verify the current situation of the network, identify needs and collect suggestions for future improvements. Most of the responding institutions said they were satisfied with the current status of the network. However, several responses to the survey indicate that better internal communication is needed, as well as a position document to specify the roles, rights and responsibilities of the network members. (authors)

  19. Emergency preparedness: medical management of nuclear accidents involving large groups of victims

    International Nuclear Information System (INIS)

    Parmentier, N.; Nenot, J.C.

    1988-01-01

    The treatment of overexposed individuals implies hospitalisation in a specialized unit applying hematological intense care. If the accident results in a small number of casualties, the medical management does not raise major problems in most of the countries, where specialized units exist, as roughly 7% of the beds are available at any time. But an accident which would involved tens or hundreds of people raises much more problems for hospitalization. Such problems are also completely different and will involve steps in the medical handling, mainly triage, (combined injuries), determination of whole body dose levels, transient hospitalization. In this case, preplanning is necessary, adapted to the system of medical care in case of a catastrophic event in the given Country, with the main basic principles : emergency concerns essentially the classical injuries (burns and trauma) - and contamination problems in some cases - treatment of radiation syndrome is not an emergency during the first days but some essential actions have to be taken such as early blood sampling for biological dosimetry and for HLa typing

  20. Emergency planning and preparedness for nuclear facilities in the Federal Republic of Germany

    International Nuclear Information System (INIS)

    Koelzer, W.

    1988-01-01

    Because of their inventories of radioactive materials nuclear facilities represent a hazard potential which, though comparable with that posed by other large technical facilities, demands particular protective measures to be taken. As a consequence of the extreme safety provisions, made, accidents with major impacts on the environment of nuclear facilities are excluded to the best human knowledge. However, as there are distinct limits to human planning and recognition, a residual risk remains despite all these precautions. In order to reduce that risk, recommendations for emergency protection in the environment of nuclear facilities have been drafted. To the extent in which measures are required outside the specific emergency protection plans apply which contain non-object related planning preparations. The recommendation also omits potential repercussions of nuclear accidents which might require measures in the sector of preventive health protection under the Radiation Protection Provisions act or the government measures to be taken. The recommendation is applied to German nuclear installations and those foreign installations whose proximity to the border requires planning measures to be taken on German territory in the sense of this recommendation. (author) [pt

  1. ELAN - the web page based information system for emergency preparedness in Germany

    International Nuclear Information System (INIS)

    Zaehringer, M.; Hoebler, Ch.; Bieringer, P.

    2002-01-01

    A plan for a WEB-page based system was developed which compiles all important information in case of an nuclear emergency with actual or potential release of radioactivity into the environment. A prototype system providing information of the Federal Ministry for Environment, Nature Conservation and Reactor Safety (BMU) was tested successfully. The implementation at the National Emergency Operations Centre of Switzerland was used as template. However, further planning takes into account the special conditions of the federal structure in Germany. The main purpose of the system is to compile, to clearly arrange, and to timely provide on a central server all relevant information of the federal government, the states (Laender), and, if available, from foreign authorities that is needed for decision making. It is envisaged to integrate similar existing systems in some states conceptually and technically. ELAN makes use of standardised and secure web technology. Uploading of information and delivery to national and foreign authorities, international organisations and the public is managed by role specific access controlling. (orig.)

  2. Basic concept of the nuclear emergency preparedness and response in Japan after the accident of the Fukushima Dai-ichi Nuclear Power Station. The plain explanation for regional officials and emergency workers

    International Nuclear Information System (INIS)

    Sato, Sohei; Yamamoto, Kazuya

    2013-07-01

    After the accident of TEPCO's Fukushima Dai-ichi Nuclear Power Station occurred on March 11, 2011, actions for controlling the accident and protective actions for the residents like evacuation were taken. In parallel with this, it has been developed to reform the nuclear regulatory systems and the emergency preparedness and response systems in Japan. Especially the Nuclear Regulation Authority's Nuclear Emergency Preparedness and Response Guidelines were adopted with the introducing the basic concepts and the criteria on the basis of the IAEA's safety standards and differed greatly from the prior guidelines. Thus the arrangement of emergency response systems, resources and the operational procedures will be developed complying with according to the guidelines in municipalities around the nuclear power station sites. This work attempts to provide a plain explanation as possible for the regional officials and emergency workers about the basic concepts of the new guidelines. (author)

  3. Beyond defense-in-depth: cost and funding of state and local government radiological emergency response plans and preparedness in support of commercial nuclear power stations

    International Nuclear Information System (INIS)

    Salomon, S.N.

    1979-10-01

    Inadequate, sporadic, uncertain and frustrating are words local, state and Federal officials use to describe the current hodgepodge funding approach to State and local government radiological emergency response plans and preparedeness in support of commercial nuclear power stations. The creation of a Radiological Emergency Response Plans and Preparedness Fund for State and Local Government is offered as a preferred solution. Monies for the Fund could be derived from a one time Fee of $1 million levied on the operator of each nuclear power station. Every five years, adjustments could be made in the Fee to assure full recovery of costs because of inflation, revised criteria and other cost related factors. Any surplus would be refunded to the utilities. Any state that has obtained NRC concurrence or is in the process could be reimbursed for previous expenditures up to two years prior to NRC concurrence. Concurrence in all state and local government plans is the objective of the funding program. The Fund should be administered by the Nuclear Regulatory Commission. The report also discusses actions by Federal and state agencies and points to long range considerations, such as a training institute, including transportation and non-commercial and other fixed nuclear facilities, where preparedness could be enhanced by a coherent funding mechanism. All recommendations are based on an inquiry by the Office of state Programs, NRC, into the historical and future costs and funding of radiological emergency response plans and preparedness at the state and local government levels and are derived from discussions with many local, State and Federal officials

  4. Joint radiation emergency management plan of the International Organizations. Emergency preparedness and response. Date effective: 1 December 2000

    International Nuclear Information System (INIS)

    2000-12-01

    The Convention on Early Notification of a Nuclear Accident (the 'Early Notification Convention') and the Convention on Assistance in the Case of a Nuclear Accident or Radiological Emergency (the 'Assistance Convention') are the prime legal instruments that establish an international framework to facilitate the exchange of information and the prompt provision of assistance in the event of a nuclear accident or radiological emergency, with the aim of minimizing the consequences. The International Atomic Energy Agency (IAEA) has specific functions allocated to it under these Conventions, to which the World Health Organization (WHO), the World Meteorological Organization (WMO) and the Food and Agriculture Organization of the United Nations (FAO) are full Parties. Since 1989, the arrangements between these organizations for facilitating the practical implementation of those articles of the two Conventions which are operational in nature have been documented by the IAEA in the Emergency Notification and Assistance Technical Operations Manual (ENATOM). This manual describes the conceptual link between the IAEA, all other relevant international intergovernmental organizations, States which are IAEA Member States and/or Parties to one or both Conventions, and other States under the terms of the two Conventions. The ENATOM is intended for use primarily by Contact Points as defined in the Convention

  5. Stockpile Stewardship at Los Alamos(U)

    Energy Technology Data Exchange (ETDEWEB)

    Webster, Robert B. [Los Alamos National Laboratory

    2012-06-29

    Stockpile stewardship is the retention of nuclear weapons in the stockpile beyond their original design life. These older weapons have potential changes inconsistent with the original design intent and military specifications. The Stockpile Stewardship Program requires us to develop high-fidelity, physics-based capabilities to predict, assess, certify and design nuclear weapons without conducting a nuclear test. Each year, the Lab Directors are required to provide an assessment of the safety, security, and reliability our stockpile to the President of the United States. This includes assessing whether a need to return to testing exists. This is a talk to provide an overview of Stockpile Stewardship's scientific requirements and how stewardship has changed in the absence of nuclear testing. The talk is adapted from an HQ talk to the War college, and historical unclassified talks on weapon's physics.

  6. Optimal vaccine stockpile design for an eradicated disease: application to polio.

    Science.gov (United States)

    Tebbens, Radboud J Duintjer; Pallansch, Mark A; Alexander, James P; Thompson, Kimberly M

    2010-06-11

    Eradication of a disease promises significant health and financial benefits. Preserving those benefits, hopefully in perpetuity, requires preparing for the possibility that the causal agent could re-emerge (unintentionally or intentionally). In the case of a vaccine-preventable disease, creation and planning for the use of a vaccine stockpile becomes a primary concern. Doing so requires consideration of the dynamics at different levels, including the stockpile supply chain and transmission of the causal agent. This paper develops a mathematical framework for determining the optimal management of a vaccine stockpile over time. We apply the framework to the polio vaccine stockpile for the post-eradication era and present examples of solutions to one possible framing of the optimization problem. We use the framework to discuss issues relevant to the development and use of the polio vaccine stockpile, including capacity constraints, production and filling delays, risks associated with the stockpile, dynamics and uncertainty of vaccine needs, issues of funding, location, and serotype dependent behavior, and the implications of likely changes over time that might occur. This framework serves as a helpful context for discussions and analyses related to the process of designing and maintaining a stockpile for an eradicated disease. (c) 2010 Elsevier Ltd. All rights reserved.

  7. The public opinion on emergency preparedness close to nuclear power plants

    International Nuclear Information System (INIS)

    Hultaaker, Oe.

    1984-07-01

    More than 1500 people have been interviewed on their attitudes towards and their knowledge of emergency actions on nuclear accidents at nuclear power plants. Of the people addressed, 768 lived in the inner zones close to the power plants. 775 were farmers near the four nuclear power sites in Sweden. The farmers lived both in inner zones and zones further away. A majority consider themselves not well-informed on health risks after a nuclear accident. More than a third would want more information on what to do in case of accident. Farmers outside the inner zones are more dissatisfied with the information status than other groups. Farmers from the inner zones consider the information given inadequate regarding risks to their health and also health risks for their live stock. The results of interviews are in some cases compared with the information given to the public. (Aa)

  8. New method for presenting offsite radiological monitoring data during emergency preparedness exercises

    International Nuclear Information System (INIS)

    Moeller, M.P.; Martin, G.F.; Hickey, E.E.; Jamison, J.D.

    1986-09-01

    As scenarios for exercises become more complicated and flexible to challenge emergency response personnel, improved means of presenting data must be developed. To provide maximum realism and free play during an exercise, staff at the Pacific Northwest Laboratory (PNL) have recently devised a simple method of presenting realistic radiological field monitoring information for a range of possible releases. The method uses only two pieces of paper. The first is a map of the offsite area showing the shape of the plume for the duration of the exercise. The second is a semilog graph containing curves that relate exposure rate and iodine concentration to downwind distance and time. Several techniques are used to maximize the information on the graph

  9. New method for presenting off-site radiological monitoring data during emergency preparedness exercises

    International Nuclear Information System (INIS)

    Moeller, M.P.; Martin, G.F.; Hickey, E.E.; Jamison, J.D.

    1987-01-01

    As scenarios for exercises become more complicated and flexible to challenge emergency response personnel, improved means of presenting data must be developed to meet this need. To provide maximum realism and free play during an exercise, staff at the Pacific Northwest Laboratory (PNL) have recently devised a simple method of presenting realistic radiological field monitoring information for a range of possible releases. The method utilizes only two pieces of paper. The first is a map of the offsite area showing the shape of the plume for the duration of the exercise. The second is a semi-log graph containing curves relating exposure rate and iodine concentration to downwind distance and time. Several techniques are used to maximize the information on the graph

  10. The development of environmental modeling tools in Brazil for emergency preparedness

    International Nuclear Information System (INIS)

    Rochedo, Elaine R.R.; Vetere, Maria I.C.; Conti, Luiz F.C.; Wasserman, Maria A.V.; Salinas, Isabel C.P.; Pereira, Jose F.; Silva, Diogo N.G.; Vinhas, Denise M

    2008-01-01

    Since the Goiania accident, in 1987, the IRD is developing tools to support decision-making processes after accidents involving radiological public exposure. The Environmental Modelling Project began with the development of the code CORAL, based on the German dynamic model ECOSYS, developed by the GSF, with the purpose of assessing the consequences of an accidental contamination of rural areas. Then, in cooperation with the GSF, the IRD has developed the model PARATI, based on information from Chernobyl and Goiania accidents, for the assessment of the exposure of the public due to a contamination of Cs-137 in urban areas. This model includes the ability to simulate the implementation of countermeasure and its effectiveness in reducing doses to the public. Subsequently, the SIEM - Integrated Emergency System was developed to include CORAL and PARATI, as well as some generic models developed by the IAEA, for short-term dose estimates and to support protective strategies during the emergency phase of an accident. SIEM also incorporated standardized data on the physical behavior of radionuclides and dose conversion factors. Several improvements have been performed in order to better adequate the model to Brazilian social, political, economic and climatic characteristics. Currently a multi-criteria strategy to support decision-making processes after the occurrence of an event of environmental contamination is under development. That work includes the development of a database on countermeasures and a computer model to perform the multi-criteria simulation. At all stages of the work, the pertinent weather and seasonal aspects are considered, in order to obtain a guide to protective actions accounting for social, economic and climatic characteristics, to be used in multi-criteria optimization processes adequate for tropical climate areas. (author)

  11. Improved Emergency Preparedness For Management Of The Food chain Via Stakeholder Involvement: Belgian and European Experience

    Energy Technology Data Exchange (ETDEWEB)

    Hardeman, Frank; Carle, Benny [SCK.CEN, the Belgian Nuclear Research Centre, Boeretang 200, 2400 Mol (Belgium); Turcanu, Catrinel [Universite Libre de Bruxelles, Av. F. Roosevelt 50, 1050 Brussels (Belgium); Vandecasteele, Christian [FANC, Federal Agency for Nuclear Control, Ravensteinstraat 36, 1000 Brussels (Belgium)

    2006-07-01

    Initiatives involving stakeholder engagement have gained increasing importance in sustainable decision making for many risk-related issues. This paper describes a Belgian experience within a European context related to food management options in the event of a radioactive contamination of the food chain. Under the auspices of the European Commission's 5. Framework Programme, the F.A.R.M.I.N.G. (F.A.R.M.I.N.G. 2000) project (co-ordinated by H.P.A.) a stakeholder network was established in a number of European countries, following a successful approach originally adopted in the UK. In a comparable approach, national workin