WorldWideScience

Sample records for pipeline coating system

  1. Addressing stress corrosion cracking on multi layer pipeline coating systems

    Hardy, Scott B.; Marr, James E. [Tuboscope Pipeline Services, Houston, TX (United States); Willmot, Martyn [Jotun Group (Norway); Norman, David [David Norman Corrosion Control, Cornwall (United Kingdom); Khera, Ashish [Allied Engineering, Portland, ME (United States)

    2005-07-01

    Stress corrosion cracking (SCC) is now recognized by operators worldwide as a significant threat to the safe operation of their pipeline systems. Gas, oil, and refined products lines have all been susceptible to this form of environmentally assisted cracking. As a result, operators and regulators have been incorporating data related to the development and prevalence of SCC into their risk management systems in order that they may effectively address this time-dependant threat. The National Association of Corrosion Engineers (NACE) published the first structured methodology for stress corrosion cracking direct assessment (SCCDA) in 2004 (RP0204-2004). Operators are now beginning to apply the methods outlined in the standard to assess their systems. Research and industry experience have shown that various pipeline coating systems can be more or less effective in preventing the formation and growth of SCC. Newer pipeline coatings, such as multi layer epoxy/extruded polyolefin systems have been widely regarded as effective coating systems to address the threat posed by SCC when they are properly applied. New field studies performed on a pipeline coated with a three layer epoxy/polyethylene system have raised the possibility that operators utilizing these types of coatings may need to reassess how they manage the SCC threat. (author)

  2. Pipeline coatings keep getting more sophisticated

    Mowers, J.

    2004-08-01

    Bredero Shaw is the world's largest pipeline company. It's Canadian division, Shaw Pipe Protection Limited (SPPL), has a technology development laboratory in Calgary where a pipe coating line is being developed along with a deepwater program which tests the performance of sub-sea insulation coatings. Tests are performed at simulated service conditions of temperature, pressure and sea water environment. Research efforts have also focused on oilsands development and the challenge of keeping bitumen hot inside pipes while reducing wear caused by entrained sand. Shaw's high performance composite coating (HPCC) is a high-tech multiple component coating that is applied as a powder spray. It can withstand temperatures of -40 to -50 degrees C and is therefore particularly suited for providing mechanical, corrosion protection in large diameter transmission pipelines such as the Mackenzie Valley Gas Pipeline and the Alaska Pipeline. It is also compatible with cathodic protection. The coating consists of fusion bonded epoxy, polyolefin adhesive and a polyethylene. It has already been used for the Athabasca Pipeline which transports crude oil from Fort McMurray through Cold Lake to Hardisty, Alberta. Other developments include the Dual Powder Abrasion Coating system which consists of two fusion layers that provide damage resistance to pipelines in rocky mountainous terrain. The Yellow Jacket is a two layer coating used for oil and gas gathering systems to resist corrosion, moisture and soil stress. This paper also described other popular coatings such as the polyurethane foam coating called Insul-8 Systems; a sprayed epoxy polymer coating called Fusion Bonded Epoxy Coating; the Cement Mortar Lining; the Flow Efficiency Coating; the Concrete Weight Coating; and, the Rock Jacket corrosion coating. 1 fig.

  3. Pipeline coating inspection in Mexico applying surface electromagnetic technology

    Delgado, O.; Mousatov, A.; Nakamura, E.; Villarreal, J.M. [Instituto Mexicano del Petroleo (IMP), Mexico City (Mexico); Shevnin, V. [Moscow State University (Russian Federation); Cano, B. [Petroleos Mexicanos (PEMEX), Mexico City (Mexico)

    2009-07-01

    The main problems in the pipeline systems in Mexico include: extremely aggressive soil characterized by a high clay content and low resistivity, interconnection between several pipes, including electrical contacts of active pipelines with out of service pipes, and short distances between pipes in comparison with their depths which reduce the resolution of coating inspection. The results presented in this work show the efficiency of the Surface Electromagnetic Pipeline Inspection (SEMPI) technology to determine the technical condition of pipelines in situations before mentioned. The SEMPI technology includes two stages: regional and detailed measurements. The regional stage consists of magnetic field measurements along the pipeline using large distances (10 - 100 m) between observation points to delimit zones with damaged coating. For quantitative assessing the leakage and coating resistances along pipeline, additional measurements of voltage and soil resistivity measurements are performed. The second stage includes detailed measurements of the electric field on the pipe intervals with anomalous technical conditions identified in the regional stage. Based on the distribution of the coating electric resistance and the subsoil resistivity values, the delimitation of the zones with different grade of coating quality and soil aggressiveness are performed. (author)

  4. Pipeline system operability review

    Eriksson, Kjell [Det Norske Veritas (Norway); Davies, Ray [CC Technologies, Dublin, OH (United States)

    2005-07-01

    Pipeline operators are continuously working to improve the safety of their systems and operations. In the US both liquid and gas pipeline operators have worked with the regulators over many years to develop more systematic approaches to pipeline integrity management. To successfully manage pipeline integrity, vast amounts of data from different sources needs to be collected, overlaid and analyzed in order to assess the current condition and predict future degradation. The efforts undertaken by the operators has had a significant impact on pipeline safety, nevertheless, during recent years we have seen a number of major high profile accidents. One can therefore ask how effective the pipeline integrity management systems and processes are. This paper will present one methodology 'The Pipeline System Operability Review' that can evaluate and rate the effectiveness of both the management systems and procedures, as well as the technical condition of the hardware. The result from the review can be used to compare the performance of different pipelines within one operating company, as well as benchmark with international best practices. (author)

  5. Engineered pipeline field joint coating solutions for demanding conditions

    Lwemuchi, Andre L.; Gudme, Carl C.; Buchanan, Robert [Canusa-CPS, Toronto, OT (Canada)

    2009-12-19

    Trends in the oil and gas pipeline industry see that the demand for new technologies and engineered solutions for pipeline external coatings are increasing. In general, superior mechanical resistance and long term performance are being required in addition to operating at higher temperatures. This demand for more robust coatings has been created because of factors such as more remote fields, deep onshore reservoirs, deep water offshore fields and heavy oil that must be pumped at higher temperatures. The development of new techniques for pipeline construction is also exposing the coatings to more aggressive construction conditions. Because of this, the use of three layer and multi-layer polypropylene mainline coating systems have been growing considerably. Following this trend, the field joint coating manufacturers developed polypropylene systems and more recently had to work on engineered solutions required for recent offshore projects in Europe where very thick polypropylene field joint heat-shrinkable systems were provided. In addition, projects in remote locations such as the recently completed projects in the Brazilian Amazon required special logistics and field services. The growth of the mining industry in South America with slurry pipelines constructed in the recent years also demanded thicker, more robust coatings. The popularization of directional drilling and shore approach applications moved the industry to develop improved abrasion resistant coating systems such as using sacrificial elements to protect the primary coating integrity after the pipeline pull. PETROBRAS plans to replace existing thermally insulated pipelines crossing Great Sao Paulo. Therefore, pumping heavy oil at high temperatures created the need to develop improved mainline and field joint coatings to avoid having the same sort of problems they are facing in existing thermally insulated lines. Due to these needs, the field joint coating manufactures have been challenged to provide

  6. Development of Protective Coatings for Co-Sequestration Processes and Pipelines

    Bierwagen, Gordon; Huang, Yaping

    2011-11-30

    The program, entitled Development of Protective Coatings for Co-Sequestration Processes and Pipelines, examined the sensitivity of existing coating systems to supercritical carbon dioxide (SCCO2) exposure and developed new coating system to protect pipelines from their corrosion under SCCO2 exposure. A literature review was also conducted regarding pipeline corrosion sensors to monitor pipes used in handling co-sequestration fluids. Research was to ensure safety and reliability for a pipeline involving transport of SCCO2 from the power plant to the sequestration site to mitigate the greenhouse gas effect. Results showed that one commercial coating and one designed formulation can both be supplied as potential candidates for internal pipeline coating to transport SCCO2.

  7. Protective coating as a factor to ensure the strength and hydraulic performance of recoverable pipelines

    Orlov Vladimir Aleksandrovich; Zotkin Sergey Petrovich; Khrenov Konstantin Evgen’evich; Dezhina Irina Sergeevna; Bogomolova Irina Olegovna

    2015-01-01

    The authors present an analysis of various types of internal protective pipeline coatings to ensure the strength and hydraulic characteristics of a remodeled pipeline and related coating methods for effective trenchless renovation of engineering systems, water supply systems and sanitation. As protective coating the authors considered a round profile tube of a smaller diameter than of the old pipe, close to the old pipe, sprayed lining on the basis of inorganic and inorganic materials. The ar...

  8. The correlation between materials, processes and final properties in the pipeline coating system with polyethylene in triple layer; A correlacao entre materiais, processos e propriedades finais no sistema de revestimento de tubos com polietileno em tripla camada

    Oliveira, Luiz C.; Campos, Paulo H. [Confab Industrial S.A., Pindamonhangaba, SP (Brazil); Silva, Christian E.; Santos, Paulo T. [Soco-Ril do Brasil S.A., Pindamonhangaba, SP (Brazil)

    2003-07-01

    The use of anticorrosion coating is a common practice in industrial pipeline applications. Among the several coatings types to buried and submerged pipelines, over all, the Fusion Bonded Epoxy and Three Layer Polyethylene coating systems have been large employed. They have showed an excellent performance protecting the pipe metal from external corrosive environment, considerably decreasing the designed cathodic protection requirements, basically in the first years of pipeline operation. Coating system success depends on not only of a suitable design or of the materials technology, but also depends on the process parameters and the raw material characteristics exhibited during the application. In this paper will be presented in a theoretical approach how the process parameters and the raw materials characteristics may affect the three layer polyethylene anticorrosion coating final properties. (author)

  9. Efficiency improvements in pipeline transportation systems

    Banks, W. F.; Horton, J. F.

    1977-09-09

    This report identifies potential energy-conservative pipeline innovations that are most energy- and cost-effective and formulates recommendations for the R, D, and D programs needed to exploit those opportunities. From a candidate field of over twenty classes of efficiency improvements, eight systems are recommended for pursuit. Most of these possess two highly important attributes: large potential energy savings and broad applicability outside the pipeline industry. The R, D, and D program for each improvement and the recommended immediate next step are described. The eight technologies recommended for R, D, and D are gas-fired combined cycle compressor station; internally cooled internal combustion engine; methanol-coal slurry pipeline; methanol-coal slurry-fired and coal-fired engines; indirect-fired coal-burning combined-cycle pump station; fuel-cell pump station; drag-reducing additives in liquid pipelines; and internal coatings in pipelines.

  10. The use of the internal epoxy coating in the gas pipelines

    The subject of the presentation is to show the impact of internal pipe coating on capacity of the gas transit system. There are technical and economical aspects of internal coating application in the presentation. The technical attributes and the results of economical factors prove the benefit of the use the internal coating in the gas pipelines. (author)

  11. Justification for internal coating of natural gas pipelines

    Asante, B. [NOVA Gas Transmission Ltd., Calgary, Alberta (Canada). System Design Dept.

    1995-12-31

    One of the major considerations in the design of a pipeline is the decision to coat or not to coat the pipe internally. This decision is essentially an economic one. It requires a detailed evaluation of the costs and benefits of internal coating over the projected life of the pipeline. Some of the benefits of internal coating have been confirmed by experimental studies conducted by various pipeline companies. These studies established, among other things, that coating pipes internally could increase pipeline capability by up to 15%. For lines with fixed capacities, this could mean substantial savings in associated compressor fuel and consequently, lower operating cost of transmission. There are also some intangible benefits associated with internal coating. For example, internal coating offers protection against corrosion due to atmospheric oxidation during storage and also due to the presence of corrosive components in the transported material during service. Coated pipes are also easier to inspect for defects such as dents, cracks, quench marks and weld undercuts, which may result in catastrophic failure of the line if undetected. A survey of some major pipeline companies in North America which employ internal coating indicated that most of these patrons regard it as merely ``good practice``. Thus, very few had a defensible procedure for adequately quantifying and justifying the application of internal coating. This paper outlines a procedure for adequately evaluating the costs and benefits of internal coating.

  12. Infrared thermographic pipeline leak detection systems for pipeline rehabilitation programs

    Weil, Gary J.

    1998-03-01

    Computerized infrared thermographic pipeline inspection is now a refined and accurate process having been thoroughly proven to be an accurate, cost effective, and efficient technology for pipeline rehabilitation programs, during a 10 year development and testing process. The process has been used to test pipelines in chemical plants, water supply systems, steam lines, natural gas pipelines and sewer systems. Its non- contact, non-destructive ability to inspect large areas, from above ground, with 100% coverage and to locate subsurface leaks as well as the additional capability to locate voids and erosion areas surrounding pipelines, make its testing capabilities unique and highly desirable. This paper details the development of computerized infrared thermographic pipeline testing along with case histories illustrating its implementation problems and successes during various rehabilitation programs involving pipelines carrying water, gas, petroleum, and sewage.

  13. Protective coating as a factor to ensure the strength and hydraulic performance of recoverable pipelines

    Orlov Vladimir Aleksandrovich

    2015-01-01

    Full Text Available The authors present an analysis of various types of internal protective pipeline coatings to ensure the strength and hydraulic characteristics of a remodeled pipeline and related coating methods for effective trenchless renovation of engineering systems, water supply systems and sanitation. As protective coating the authors considered a round profile tube of a smaller diameter than of the old pipe, close to the old pipe, sprayed lining on the basis of inorganic and inorganic materials. The article analyzes the methods of trenchless renovation for applying protective coatings: routing in the old pipeline of new pipes made of polymeric materials or polymeric sleeves, centrifugal spraying on the inner surface of pipelines’ inorganic and organic protective coatings. Special attention was paid to bag technology, providing the required strength properties at specific values of the modulus of elasticity and a number of external factors such as the depth of the existing pipe, the existence and magnitude of the horizon groundwater over it. Also attention is paid to the application technology of tape coatings ribbed profile on the inner surface of pipelines. This technology has a unique feature, which is the ability of recoverable pipeline functioning during its renovation by winding an endless belt and the formation of a new pipe. The tape coating winding is carried out by different types of spiral winding machines. The thickness of the protective coating layer forming the tube remains minimal. Inorganic cement-sand and organic coatings were considered as alternative options for repair of pipelines, which allow to localize the defects in the form of a fistula, minor cracks and other damages. However it is noted that a cement-sandy covering is inferior to organic, because it does not provide the strength characteristics of the pipeline system. The main advantage of the organic coating is mudding fistula of a large diameter, making a high wear

  14. Efficiency improvements in pipeline transportation systems. Technical report, Task 3

    Banks, W. F.; Horton, J. H.

    1977-01-01

    This report identifies those potential energy-conservative pipeline innovations that are most energy- and cost-effective, and formulates recommendations for the R, D, and D programs needed to exploit those opportunities. From a candidate field of over twenty classes of efficiency improvements, eight systems are recommended for pursuit. Most of these possess two highly important attributes: large potential energy savings and broad applicability outside the pipeline industry. The R, D, and D program for each improvement and the recommended immediate next step are described. The eight programs recommended for pursuit are: gas-fired combined-cycle compressor station; internally cooled internal combustion engine; methanol-coal slurry pipeline; methanol-coal slurry-fired and coal-fired engines; indirect-fired coal-burning combined-cycle pump station; fuel-cycle pump station; internal coatings in pipelines; and drag-reducing additives in liquid pipelines.

  15. Method and system for pipeline communication

    Richardson; John G.

    2008-01-29

    A pipeline communication system and method includes a pipeline having a surface extending along at least a portion of the length of the pipeline. A conductive bus is formed to and extends along a portion of the surface of the pipeline. The conductive bus includes a first conductive trace and a second conductive trace with the first and second conductive traces being adapted to conformally couple with a pipeline at the surface extending along at least a portion of the length of the pipeline. A transmitter for sending information along the conductive bus on the pipeline is coupled thereto and a receiver for receiving the information from the conductive bus on the pipeline is also couple to the conductive bus.

  16. Preprint ARPPS Augmented Reality Pipeline Prospect System

    Zhang, Xiaolei; Han, Yong; Hao, DongSheng; Lv, Zhihan

    2015-01-01

    This is the preprint version of our paper on ICONIP. Outdoor augmented reality geographic information system (ARGIS) is the hot application of augmented reality over recent years. This paper concludes the key solutions of ARGIS, designs the mobile augmented reality pipeline prospect system (ARPPS), and respectively realizes the machine vision based pipeline prospect system (MVBPPS) and the sensor based pipeline prospect system (SBPPS). With the MVBPPS's realization, this paper studies the neu...

  17. 49 CFR 195.557 - Which pipelines must have coating for external corrosion control?

    2010-10-01

    ... corrosion control? 195.557 Section 195.557 Transportation Other Regulations Relating to Transportation...) PIPELINE SAFETY TRANSPORTATION OF HAZARDOUS LIQUIDS BY PIPELINE Corrosion Control § 195.557 Which pipelines must have coating for external corrosion control? Except bottoms of aboveground breakout tanks,...

  18. Corrosion and coating defects on buried pipelines under CP: Excavations data collection and analysis

    Karcher, Sebastien; Campaignolle, Xavier; Masson, Bernard; Meyer, Michel [Gaz de France Research and Development Division, 361 avenue du President Wilson, BP33 93211 Saint Denis La Plaine (France)

    2004-07-01

    Onshore gas transmission pipelines are conjointly protected against external corrosion by an organic coating and by cathodic protection (CP). Owing to particular defects or coating aging in the long term in ground, the protective efficiency of this dual system may be impaired. Consequently, external corrosion may develop and, eventually, threaten the integrity of the line if not detected and mitigated in time. To ensure continued protection of its lines against external corrosion, Gaz de France carries out, routinely, several maintenance and monitoring activities on the CP system. In addition, above ground surveys allow a better assessment of possible coating faults. However, it is necessary to continuously improve the reliability of the corrosion prediction to optimize the maintenance of pipelines. When indications and measurements from any mean of inspection (in-line inspection or above ground surveys) lead to suspect the presence of any significant metal defect, an excavation of the concerned pipe section is performed. At each excavation location, many parameters are collected to document the existing conditions of coating and steel. If sufficiently extended and reliable, this information may help to understand the root causes for development of corrosion. Eventually, thorough analysis of field data resulting either from inspection or from maintenance operations could lead to corrosion prediction. Since the volume of these data is large, reliability and consistency of information is absolutely required. Gaz de France has implemented a systematic data collection procedure on excavation sites, together with data analysis through a range of treatment methods. Data on more than 1400 excavations, pertaining to a set of different selected pipelines, have been collected in a single database. The later contains data such as pipelines characteristics, local cathodic protection parameters at the time of excavation, coating defect description if any, characterization of

  19. Development of a new solvent-free flow efficiency coating for natural gas pipelines

    Fogg, Graham A.; Morse, Jennifer [Bredero Shaw, Houston, TX (United States)

    2005-07-01

    Pipeline design engineers have traditionally considered external anti-corrosion coatings for the protection of gas transmission pipelines, with less consideration given to the benefits of internal flow efficiency coatings. This paper reviews the benefits of using a traditional solvent-based flow efficiency coating, and the relationship between the internal surface roughness of a pipe, the pressure drop across the pipeline, and the maximum flow rate of gas through the pipeline. To improve upon existing solvent-based flow efficiency coatings, a research program was undertaken to develop a solvent-free coating. The stages in the development of this coating are discussed, resulting in the plant application of the coating and final qualification to API RP 5L2. (author)

  20. Gamma ray system operated by robots for underwater pipeline inspection

    Marinho, C.; Camerini, C.; Maia, C. [PETROBRAS, Rio de Janeiro (Brazil); Tadeu, R.; Rocha, H. [Rio de Janeiro Federal Univ. (Brazil)

    2006-07-01

    The Petrobras Research Centre - CENPES - and the Rio de Janeiro Federal University - UFRJ - have developed a completely automized gammagraphy system in order to inspect underwater pipelines in the oil industry. This project aims at achieving the state of the art in detection and measurement of alveoli corrosion and fatigue cracks in underwater pipelines and steel catenary risers (SCRs). This paper presents the development of the gammagraphy system that will be used, which uses Iridium-192 as radiation source, and will be available with phosphor image plates. Underwater conditions require fixed source-film geometry considering the additional thickness of the pipeline coating and conducted fluid. The available parameters are minimum source activity and contrast sensitivity of the computed radiography systems. Contrast sensitivity evaluation is performed by a computeraided procedure with the line profile of the radiographic image. (orig.)

  1. Repairing method for reactor primary system pipeline

    Pipelines after decontamination of radioactive nuclides deposited on the pipelines in a nuclear power plant during operation or pipelines to replace pipelines deposited with radioactive nuclide are connected to each system of the nuclear power plant. They are heated in a gas phase containing oxygen to form an oxide film on the surface of the pipelines. The thickness of the oxide film formed in the gas phase is 1nm or greater, preferably 100nm. The concentration of oxygen in the gas phase containing oxygen must be 0.1% or greater. The heating is conducted by circulating a heated gas to the inside of the pipelines or disposing a movable heater such as a high frequency induction heater inside of the pipelines to form the oxide film. Then, redeposition of radioactive nuclide can be suppressed and since the oxide film is formed in the gas phase, a large scaled facilities are not necessary, thereby enabling to repair pipelines of reactor primary system at low cost. (N.H.)

  2. Computer Systems to Oil Pipeline Transporting

    Timur Chis, Ph.D., Dipl.Eng.

    2007-01-01

    Full Text Available Computer systems in the pipeline oil transporting that the greatest amount of data can be gathered, analyzed and acted upon in the shortest amount of time. Most operators now have some form of computer based monitoring system employing either commercially available or custom developed software to run the system. This paper presented the SCADA systems to oil pipeline in concordance to the Romanian environmental regulations.

  3. Power system for electric heating of pipelines

    Novik, Frode Karstein

    2008-01-01

    Direct electrical heating (DEH) of pipelines is a flow assurance method that has proven to be a good and reliable solution for preventing the formation of hydrates and wax in multiphase flow lines. The technology is installed on several pipelines in the North Sea and has become StatoilHydros preferred method for flow assurance. Tyrihans is the newest installation with 10 MW DEH for a 43 km pipline. However, the pipeline represents a considerable single-phase load which makes the power system ...

  4. Bad Actors Criticality Assessment for Pipeline system

    Nasir, Meseret; Chong, Kit wee; Osman, Sabtuni; Siaw Khur, Wee

    2015-04-01

    Failure of a pipeline system could bring huge economic loss. In order to mitigate such catastrophic loss, it is required to evaluate and rank the impact of each bad actor of the pipeline system. In this study, bad actors are known as the root causes or any potential factor leading to the system downtime. Fault Tree Analysis (FTA) is used to analyze the probability of occurrence for each bad actor. Bimbaum's Importance and criticality measure (BICM) is also employed to rank the impact of each bad actor on the pipeline system failure. The results demonstrate that internal corrosion; external corrosion and construction damage are critical and highly contribute to the pipeline system failure with 48.0%, 12.4% and 6.0% respectively. Thus, a minor improvement in internal corrosion; external corrosion and construction damage would bring significant changes in the pipeline system performance and reliability. These results could also be useful to develop efficient maintenance strategy by identifying the critical bad actors.

  5. External coatings for buried pipelines - a project approach; Revestimento externo para dutos enterrados - uma abordagem de projeto

    Nunes, Laerce de P.; Gomes, Luiz Paulo; Nunes, Alessandra de M. [IEC - Instalacoes e Engenharia de Corrosao Ltda., Rio de Janeiro, RJ (Brazil)

    2005-07-01

    The transport of liquid or gas fluids, such as water, fuel, chemical products, minerals, among others, through underground pipelines, is becoming more significant in the whole world, specially in Brazil, due to low cost, operational security and low physical interference at the surface. By the other hand, the ambient matters, the population's security in pipeline tracing and economic aspects lead to greater requirements in relation to the integrity of those installations. Corrosion is one of the most important causes of underground pipelines' deterioration and coating and cathodic protection are recommended to prevent it from occurring. However, both techniques must be considered in the pipeline project for it to be successful. At the present work the most important kinds of coating for underground pipelines are presented, as well as the applications, limitations, reference norms and the interface with the cathodic protection systems in relation to the efficiencies to be adopted and the expected performance. Is it also discussed the welded piping joints confection and the protection difficulties when the efficiencies are not corresponded to those foreseen in the cathodic protection systems project. (author)

  6. 49 CFR 195.581 - Which pipelines must I protect against atmospheric corrosion and what coating material may I use?

    2010-10-01

    ... corrosion and what coating material may I use? 195.581 Section 195.581 Transportation Other Regulations... Corrosion Control § 195.581 Which pipelines must I protect against atmospheric corrosion and what coating... atmosphere, except pipelines under paragraph (c) of this section. (b) Coating material must be suitable...

  7. Susceptibility to corrosion damage of pipeline steels under coating disbondments

    Guermazi, N.; Ibrahmi, A.; Hmidi, H.; Elleuch, K.; Ayedi, H.F. [Unite de Recherche de Chimie Industrielle et Materiaux, URCIM - ENIS, Sfax (Tunisia)

    2010-01-15

    This study provides an experimental investigation on the corrosion behaviour of three carbon steels used for pipeline application. The susceptibility of these materials to corrosion damage was analysed in order to simulate its service conditions particularly under disbonded coating. Monitoring of open-circuit potential (E{sub free}), polarization resistance (R{sub p}) and measuring of the weight loss during immersion time were used to evaluate the corrosion behaviour of the studied materials. All the corrosion experiments were performed in two aqueous solutions: natural seawater and synthetic one (3 wt% NaCl solution). The morphology of the corrosion products was examined by optical microscopy. The results obtained from electrochemical tests have shown different behaviour for the studied steels into the retained corrosive environments: more stable potentials (E{sub free}), higher R{sub p}-values with large fluctuations evolution were found in natural seawater. The gravimetric measurements have also shown a continuous variation of the weight loss throughout the exposure period in the sodium chloride solution. However, it seemed that a passive behaviour was observed in natural seawater. A little difference was observed between all the studied steels in terms of corrosion kinetics. The steel, having the little ferritic grain size, seems to be more resistant to corrosion damage. Qualitatively, a porous and non-adherent oxide film was observed on the corroded surface in the synthetic solution; while, the rust layer, which is formed in the natural seawater, has acted as a barrier of corrosion process. Finally, all the results obtained from both electrochemical tests and weight loss measurements were in reasonably good accordance. The important common point that can be concluded was that all the tested materials seem to be more suitable for natural seawater than 3 wt% NaCl solution. Also, they are not recommendable to be used in an environment where chloride attack is

  8. Overview of interstate hydrogen pipeline systems.

    Gillette, J .L.; Kolpa, R. L

    2008-02-01

    . The following discussion will focus on the similarities and differences between the two pipeline networks. Hydrogen production is currently concentrated in refining centers along the Gulf Coast and in the Farm Belt. These locations have ready access to natural gas, which is used in the steam methane reduction process to make bulk hydrogen in this country. Production centers could possibly change to lie along coastlines, rivers, lakes, or rail lines, should nuclear power or coal become a significant energy source for hydrogen production processes. Should electrolysis become a dominant process for hydrogen production, water availability would be an additional factor in the location of production facilities. Once produced, hydrogen must be transported to markets. A key obstacle to making hydrogen fuel widely available is the scale of expansion needed to serve additional markets. Developing a hydrogen transmission and distribution infrastructure would be one of the challenges to be faced if the United States is to move toward a hydrogen economy. Initial uses of hydrogen are likely to involve a variety of transmission and distribution methods. Smaller users would probably use truck transport, with the hydrogen being in either the liquid or gaseous form. Larger users, however, would likely consider using pipelines. This option would require specially constructed pipelines and the associated infrastructure. Pipeline transmission of hydrogen dates back to late 1930s. These pipelines have generally operated at less than 1,000 pounds per square inch (psi), with a good safety record. Estimates of the existing hydrogen transmission system in the United States range from about 450 to 800 miles. Estimates for Europe range from about 700 to 1,100 miles (Mohipour et al. 2004; Amos 1998). These seemingly large ranges result from using differing criteria in determining pipeline distances. For example, some analysts consider only pipelines above a certain diameter as transmission lines

  9. Diagnostics and reliability of pipeline systems

    Timashev, Sviatoslav

    2016-01-01

    The book contains solutions to fundamental problems which arise due to the logic of development of specific branches of science, which are related to pipeline safety, but mainly are subordinate to the needs of pipeline transportation.          The book deploys important but not yet solved aspects of reliability and safety assurance of pipeline systems, which are vital aspects not only for the oil and gas industry and, in general, fuel and energy industries , but also to virtually all contemporary industries and technologies. The volume will be useful to specialists and experts in the field of diagnostics/ inspection, monitoring, reliability and safety of critical infrastructures. First and foremost, it will be useful to the decision making persons —operators of different types of pipelines, pipeline diagnostics/inspection vendors, and designers of in-line –inspection (ILI) tools, industrial and ecological safety specialists, as well as to researchers and graduate students.

  10. Pipelines, utilities plan over 150 scada systems

    This paper reports that North American pipelines and utilities will spend more than $170 million on new or upgraded supervisory control and data acquisition (scada) systems during the 30-month period that commenced Sept. 1. Another $12.5 million will be spent on peripherals and consulting. Among the 699 various projects to be implemented during the period, companies will install 151 scada systems, add 154 remote-terminal units (RTUs) to existing scada units, and install 196 communications systems. Scada systems are computerized hardware and software systems that perform a set of monitoring and control functions. In gas utilities, these systems perform functions normally associated with gas transmission and distribution as well as production plant process control. In gas and oil pipelines, the systems perform these functions as well as such specialized functions as batch tracking, leak detection, and gas load flow

  11. Diverless pipeline repair system for deep water

    Spinelli, Carlo M. [Eni Gas and Power, Milan (Italy); Fabbri, Sergio; Bachetta, Giuseppe [Saipem/SES, Venice (Italy)

    2009-07-01

    SiRCoS (Sistema Riparazione Condotte Sottomarine) is a diverless pipeline repair system composed of a suite of tools to perform a reliable subsea pipeline repair intervention in deep and ultra deep water which has been on the ground of the long lasting experience of Eni and Saipem in designing, laying and operating deep water pipelines. The key element of SiRCoS is a Connection System comprising two end connectors and a repair spool piece to replace a damaged pipeline section. A Repair Clamp with elastomeric seals is also available for pipe local damages. The Connection System is based on pipe cold forging process, consisting in swaging the pipe inside connectors with suitable profile, by using high pressure seawater. Three swaging operations have to be performed to replace the damaged pipe length. This technology has been developed through extensive theoretical work and laboratory testing, ending in a Type Approval by DNV over pipe sizes ranging from 20 inches to 48 inches OD. A complete SiRCoS system has been realised for the Green Stream pipeline, thoroughly tested in workshop as well as in shallow water and is now ready, in the event of an emergency situation.The key functional requirements for the system are: diverless repair intervention and fully piggability after repair. Eni owns this technology and is now available to other operators under Repair Club arrangement providing stand-by repair services carried out by Saipem Energy Services. The paper gives a description of the main features of the Repair System as well as an insight into the technological developments on pipe cold forging reliability and long term duration evaluation. (author)

  12. An integrated system for pipeline condition monitoring

    Strong, Andrew P.; Lees, Gareth; Hartog, Arthur; Twohig, Richard; Kader, Kamal; Hilton, Graeme; Mullens, Stephen; Khlybov, Artem [Schlumberger, Southampton (United Kingdom); Sanderson, Norman [BP Exploration, Sunbury (United Kingdom)

    2009-07-01

    In this paper we present the unique and innovative 'Integriti' pipeline and flow line integrity monitoring system developed by Schlumberger in collaboration with BP. The system uses optical fiber distributed sensors to provide simultaneous distributed measurements of temperature, strain and vibration for the detection, monitoring, and location of events including: Third Party Interference (TPI), including multiple simultaneous disturbances; geo-hazards and landslides; gas and oil leaks; permafrost protection. The Integriti technology also provides a unique means for tracking the progress of cleaning and instrumented pigs using existing optical telecom and data communications cables buried close to pipelines. The Integriti solution provides a unique and proactive approach to pipeline integrity management. It performs analysis of a combination of measurands to provide the pipeline operator with an event recognition and location capability, in effect providing a hazard warning system, and offering the operator the potential to take early action to prevent loss. Through the use of remote, optically powered amplification, an unprecedented detection range of 100 km is possible without the need for any electronics and therefore remote power in the field. A system can thus monitor 200 km of pipeline when configured to monitor 100 km upstream and downstream from a single location. As well as detecting conditions and events leading to leaks, this fully integrated system provides a means of detecting and locating small leaks in gas pipelines below the threshold of present online leak detection systems based on monitoring flow parameters. Other significant benefits include: potential reductions in construction costs; enhancement of the operator's existing integrity management program; potential reductions in surveillance costs and HSE risks. In addition to onshore pipeline systems this combination of functionality and range is available for practicable

  13. 77 FR 6857 - Pipeline Safety: Notice of Public Meetings on Improving Pipeline Leak Detection System...

    2012-02-09

    ... Capabilities and Research 12:30 p.m. Lunch 1:30 p.m. Panel 3: Considerations for Natural Gas Pipeline Leak Detection Systems 3:30 p.m. Break 3:45 p.m. Panel 4: Natural Gas Pipeline Leak Detection System Capabilities... Liquid Pipelines 10:10 a.m. Break 10:25 a.m. Panel 2: Valve Considerations for Natural Gas......

  14. Development of an automatic pipeline scanning system

    Kim, Jae H.; Lee, Jae C.; Moon, Soon S.; Eom, Heung S.; Choi, Yu R

    1999-11-01

    Pressure pipe inspection in nuclear power plants is one of the mandatory regulation items. Comparing to manual ultrasonic inspection, automatic inspection has the benefits of more accurate and reliable inspection results and reduction of radiation disposal. final object of this project is to develop an automatic pipeline inspection system of pressure pipe welds in nuclear power plants. We developed a pipeline scanning robot with four magnetic wheels and 2-axis manipulator for controlling ultrasonic transducers, and developed the robot control computer which controls the robot to navigate along inspection path exactly. We expect our system can contribute to reduction of inspection time, performance enhancement, and effective management of inspection results. The system developed by this project can be practically used for inspection works after field tests. (author)

  15. Virtual Pipeline System Testbed to Optimize the U.S. Natural Gas Transmission Pipeline System

    Kirby S. Chapman; Prakash Krishniswami; Virg Wallentine; Mohammed Abbaspour; Revathi Ranganathan; Ravi Addanki; Jeet Sengupta; Liubo Chen

    2005-06-01

    The goal of this project is to develop a Virtual Pipeline System Testbed (VPST) for natural gas transmission. This study uses a fully implicit finite difference method to analyze transient, nonisothermal compressible gas flow through a gas pipeline system. The inertia term of the momentum equation is included in the analysis. The testbed simulate compressor stations, the pipe that connects these compressor stations, the supply sources, and the end-user demand markets. The compressor station is described by identifying the make, model, and number of engines, gas turbines, and compressors. System operators and engineers can analyze the impact of system changes on the dynamic deliverability of gas and on the environment.

  16. Shielding effects of concrete and foam external pipeline coatings

    The research project began in July, 1986 and was completed in December, 1990. The objectives of the research were: To determine whether concrete and urethane foam-barrier coatings shield the pipe from cathodic-protection current, To determine whether the barrier coatings also effectively shield the pipe from the environment, thus reducing the need for cathodic protection, To determine what levels of cathodic protection will be required to overcome shielding, and To establish what types of barrier coatings are most compatible with obtaining adequate levels of cathodic protection. To achieve these objectives, laboratory experiments were conducted with five barrier coating materials. These materials were (1) 2-lb/ft3, closed-cell urethane foam, (2) 3-lb/ft3, closed-cell urethane foam, (3) concrete barrier material, (4) glass fiber-reinforced concrete barrier material, and (5) sand. The barrier materials, whole and intentionally cracked, were applied to the bare, FBE-coated, and tape-coated steel specimens. The specimens were tested in aqueous electrolytes at room temperature and 140 degree F with no protection, protection to -0.95 V, and overprotection to -1.2 V (Cu/CuSO4)

  17. Autonomous underwater pipeline monitoring navigation system

    Mitchell, Byrel; Mahmoudian, Nina; Meadows, Guy

    2014-06-01

    This paper details the development of an autonomous motion-control and navigation algorithm for an underwater autonomous vehicle, the Ocean Server IVER3, to track long linear features such as underwater pipelines. As part of this work, the Nonlinear and Autonomous Systems Laboratory (NAS Lab) developed an algorithm that utilizes inputs from the vehicles state of the art sensor package, which includes digital imaging, digital 3-D Sidescan Sonar, and Acoustic Doppler Current Profilers. The resulting algorithms should tolerate real-world waterway with episodic strong currents, low visibility, high sediment content, and a variety of small and large vessel traffic.

  18. Multilayer thermal barrier coating systems

    Vance, Steven J.; Goedjen, John G.; Sabol, Stephen M.; Sloan, Kelly M.

    2000-01-01

    The present invention generally describes multilayer thermal barrier coating systems and methods of making the multilayer thermal barrier coating systems. The thermal barrier coating systems comprise a first ceramic layer, a second ceramic layer, a thermally grown oxide layer, a metallic bond coating layer and a substrate. The thermal barrier coating systems have improved high temperature thermal and chemical stability for use in gas turbine applications.

  19. Study and Application of Internal Coating Technique to Drag Reduction of the Trunk Pipeline for the West-East Gas Pipeline

    HuShixin; QuShenyang; LinZhu

    2004-01-01

    Coverage layer coated in the internal wall of pipeline enables the friction drag to be reduced, the throughput and the gas transmission efficiency to be increased, the frequency of pigging and the number of the intermediate compressor station to be reduced, and the power consumption of the compressor to be decreased etc. The drag reduction is a high advanced scientific technique with outstanding economical benefit. The study and application of internal coating technique for drag reduction of 4000km trunk pipeline in West-East gas transmission pipeline (WEGTP) project are described, in which the main points are the drag reduction principle, coating process and the indoor study of this technique with own-decided knowledge property right at home.

  20. Infrared-thermography-based pipeline leak detection systems

    Weil, Gary J.; Graf, Richard J.

    1991-03-01

    Computerized Infrared Thermographic pipeline inspection is now a refined and accurate process having been thoroughly proven to be an accurate, cost effective, and efficient technology during a 10 year development and testing process. The process has been used to test pipelines in chemical plants, water supply systems, steam lines, natural gas pipelines and sewer systems. Its non-contact, nondestructive ability to inspect large areas from above ground with 100% coverage and to locate subsurface leaks as well as the additional capability to locate voids and erosion surrounding pipelines make its testing capabilities unique. This paper will detail the development of computerized infrared thermographic pipeline testing along with case histories illustrating its implementation problems and successes and innovations anticipated for the future.

  1. Permanent cathodic protection monitoring systems for offshore pipelines

    Britton, Jim [Deepwater Corrosion Services Inc., Houston, TX (United States)

    2009-07-01

    Historically offshore pipeline cathodic protection monitoring has relied on the use of portable survey techniques. This has typically relied on ROV assisted or surface deployed survey methods. These methods have been shown to have technical as well as economic shortcomings, this is particularly true of buried offshore pipelines where accuracy is always questionable. As more focus is being placed on offshore pipeline integrity, it was time for a new method to emerge. The technology discussed involves the retro-placement of permanent clamp-on monitors onto the pipeline which can measure pipeline to seawater potential as well as current density. The sensors can be interrogated locally using light powered subsea voltage readouts. Application of the technology can be either during pipeline construction, during installation of life extension CP systems, or during routine subsea pipeline interventions. The new method eliminates the need for long cables or expensive acoustic or modulated data transfer and provides all the information required to fully verify CP system performance, thus eliminating the need for expensive close-interval surveys. Some deployment case histories will be presented along with feasibility of application on deep water pipelines and comparative economics. (author)

  2. Pipeline, utilities to spend $127 million on scada systems

    Spending for new or upgraded supervisory control and data acquisition (scada) systems and for additional remote-terminal units (RTUs) by North American pipelines and utilities will exceed $165 million through February 1996. New and updated scada systems will total 122 at a cost of more than $127 million; 143 RTU add-on projects will cost more than $38 million. Pipelines and combined utilities/pipelines will spend $89.5 million for 58 scada-system projects and $30.2 million for RTU add-on projects. Scada systems are computerized hardware and software systems that perform monitoring and control functions. In gas utilities, these systems perform functions normally associated with gas transmission and distribution as well as production-plant process control. In gas and oil pipelines, the systems perform these functions as well as such specialized functions as batch tracking, leak detection, and gas load flow

  3. National Pipeline Mapping System: Map Tool

    Department of Transportation — The NPMS Public Map Viewer allows the general public to view maps of transmission pipelines, LNG plants, and breakout tanks in one selected county. Distribution and...

  4. Combustion chemical vapor desposited coatings for thermal barrier coating systems

    Hampikian, J.M.; Carter, W.B. [Georgia Institute of Technology, Atlanta, GA (United States)

    1995-10-01

    The new deposition process, combustion chemical vapor deposition, shows a great deal of promise in the area of thermal barrier coating systems. This technique produces dense, adherent coatings, and does not require a reaction chamber. Coatings can therefore be applied in the open atmosphere. The process is potentially suitable for producing high quality CVD coatings for use as interlayers between the bond coat and thermal barrier coating, and/or as overlayers, on top of thermal barrier coatings.

  5. An milp formulation for the scheduling of multiproduct pipeline systems

    Rejowski Jr. R.; Pinto J.M.

    2002-01-01

    Pipelines provide an economic mode of fluid transportation for petroleum systems, specially when large amounts of these products have to be pumped for large distances. The system discussed in this paper is composed of a petroleum refinery, a multiproduct pipeline connected to several depots and the corresponding consumer markets that receive large amounts of gasoline, diesel, LPG and aviation fuel. An MILP optimization model that is based on a convex-hull formulation is proposed for the sched...

  6. Cathodic Protection of Pipeline Using Distributed Control System

    Gopalakrishnan Jayapalan; Ganga Agnihotri; Deshpande, D. M.

    2014-01-01

    Distributed control system (DCS) is available in most of the compressor stations of cross-country pipeline systems. Programmable logic controller (PLC) is used in all the intermediate pigging (IP) stations/sectional valve (SV) stations to collect the field data and to control the remote actuated valves. This paper presents how DCS or PLC can be used for cathodic protection of gas pipelines. Virtual instrumentation (VI) software is used here for simulation and real-time implementation purpose....

  7. IPDOS: An Integrated Pipeline Design and Operation System

    Darwich, T.D.

    1994-12-31

    This paper presents the newly developed computer package IPDOS, an Integrated Pipeline Design and Operation System. The developed package provides a useful tool in assisting the pipeline engineers in compiling and processing the massive amounts of data needed for the various phases of pipeline design, construction, operation, and maintenance. IPDOS, which operates in a DOS environment, is made up of two main integrated modules: The database module and the processing module. The database module consists of a set of relational databases that are used to store the environmental, constructional, operational and maintenance parameters of the different pipeline systems within a company. These parameters can be entered, accessed, or reported via a number of easy-to-use interactive user menus. The processing module consists of a suit of programs that allow the user to perform a wide variety of data processing and analysis. These programs include wall thickness calculations, pipe size selection, stability analysis, pipeline lay-stress analysis and fluid flow analysis for gas, liquid, and multiphase pipelines. The paper provides a summary description of the main features of the software. The application of IPDOS as an information channel and an analysis tool for field and office pipeline personnel to completely evaluate the available data in an expedient manner is also presented.

  8. Use of Polyurethane Coating to Prevent Corrosion in Oil and Gas Pipelines Transfer

    Amir Samimi

    2012-12-01

    Full Text Available Corrosion is one of the major problems in the oil and gas industry is one that automatically allocates huge sums annually. Polyurethane is a thermoses polymer with various applications. Using form this polymer has spread for military applications by Otto Bayer in 1930. In one general look polyurethane is product of Iso Syanate and ploy with each other, So that: Iso + ploy = polyurethane. Spend large cost for application and launching oil and gas transitions, has cleared the necessity protection from them agonist corrosion. In this direction protection coating with specific properties such as high electricity resistance presented to market by various companies that each of them has special advantage and disadvantages. In this research has tried while analysis coatings specifications of gas and oil transitional pipelines, has compared properties and common qualities of them with each other.

  9. Deliverability on the interstate natural gas pipeline system

    NONE

    1998-05-01

    Deliverability on the Interstate Natural Gas Pipeline System examines the capability of the national pipeline grid to transport natural gas to various US markets. The report quantifies the capacity levels and utilization rates of major interstate pipeline companies in 1996 and the changes since 1990, as well as changes in markets and end-use consumption patterns. It also discusses the effects of proposed capacity expansions on capacity levels. The report consists of five chapters, several appendices, and a glossary. Chapter 1 discusses some of the operational and regulatory features of the US interstate pipeline system and how they affect overall system design, system utilization, and capacity expansions. Chapter 2 looks at how the exploration, development, and production of natural gas within North America is linked to the national pipeline grid. Chapter 3 examines the capability of the interstate natural gas pipeline network to link production areas to market areas, on the basis of capacity and usage levels along 10 corridors. The chapter also examines capacity expansions that have occurred since 1990 along each corridor and the potential impact of proposed new capacity. Chapter 4 discusses the last step in the transportation chain, that is, deliverability to the ultimate end user. Flow patterns into and out of each market region are discussed, as well as the movement of natural gas between States in each region. Chapter 5 examines how shippers reserve interstate pipeline capacity in the current transportation marketplace and how pipeline companies are handling the secondary market for short-term unused capacity. Four appendices provide supporting data and additional detail on the methodology used to estimate capacity. 32 figs., 15 tabs.

  10. High-throughput bioinformatics with the Cyrille2 pipeline system

    de Groot Joost CW

    2008-02-01

    Full Text Available Abstract Background Modern omics research involves the application of high-throughput technologies that generate vast volumes of data. These data need to be pre-processed, analyzed and integrated with existing knowledge through the use of diverse sets of software tools, models and databases. The analyses are often interdependent and chained together to form complex workflows or pipelines. Given the volume of the data used and the multitude of computational resources available, specialized pipeline software is required to make high-throughput analysis of large-scale omics datasets feasible. Results We have developed a generic pipeline system called Cyrille2. The system is modular in design and consists of three functionally distinct parts: 1 a web based, graphical user interface (GUI that enables a pipeline operator to manage the system; 2 the Scheduler, which forms the functional core of the system and which tracks what data enters the system and determines what jobs must be scheduled for execution, and; 3 the Executor, which searches for scheduled jobs and executes these on a compute cluster. Conclusion The Cyrille2 system is an extensible, modular system, implementing the stated requirements. Cyrille2 enables easy creation and execution of high throughput, flexible bioinformatics pipelines.

  11. Pipeline engineering

    Liu, Henry

    2003-01-01

    PART I: PIPE FLOWSINTRODUCTIONDefinition and Scope Brief History of PipelinesExisting Major PipelinesImportance of PipelinesFreight (Solids) Transport by PipelinesTypes of PipelinesComponents of PipelinesAdvantages of PipelinesReferencesSINGLE-PHASE INCOMPRESSIBLE NEWTONIAN FLUIDIntroductionFlow RegimesLocal Mean Velocity and Its Distribution (Velocity Profile)Flow Equations for One-Dimensional AnalysisHydraulic and Energy Grade LinesCavitation in Pipeline SystemsPipe in Series and ParallelInterconnected ReservoirsPipe NetworkUnsteady Flow in PipeSINGLE-PHASE COMPRESSIBLE FLOW IN PIPEFlow Ana

  12. Crude value management through pipeline systems

    Segato, R. [Suncor Energy Marketing Inc., Calgary, AB (Canada)

    2009-07-01

    This presentation reviewed Suncor's integrated oil flow operations with particular focus on the best practices in crude oil quality management from source rocks to refineries. Suncor produces synthetic crude at its operations in Fort McMurray, Alberta. The crude reaches destinations across North America. The quality of injected and delivered crude varies because of pipeline and terminal logistics, which implies changes in valuation. Refinery planners, engineers and crude traders are faced with the challenge of maximizing profitability while minimizing risk. Refiners face a continuously changing landscape in terms of crude classifications, new commodity developments, batch interferences, shared tank bottoms and sampling limitations. tabs., figs.

  13. An milp formulation for the scheduling of multiproduct pipeline systems

    Rejowski Jr. R.

    2002-01-01

    Full Text Available Pipelines provide an economic mode of fluid transportation for petroleum systems, specially when large amounts of these products have to be pumped for large distances. The system discussed in this paper is composed of a petroleum refinery, a multiproduct pipeline connected to several depots and the corresponding consumer markets that receive large amounts of gasoline, diesel, LPG and aviation fuel. An MILP optimization model that is based on a convex-hull formulation is proposed for the scheduling system. The model must satisfy all the operational constraints, such as mass balances, distribution constraints and product demands. Results generated include the inventory levels at all locations, the distribution of products between the depots and the best ordering of products in the pipeline.

  14. The RoboPol Pipeline and Control System

    King, O G; Ramaprakash, A N; Myserlis, I; Angelakis, E; Baloković, M; Feiler, R; Fuhrmann, L; Hovatta, T; Khodade, P; Kougentakis, A; Kylafis, N; Kus, A; Paleologou, E; Panopoulou, G; Papadakis, I; Papamastorakis, I; Paterakis, G; Pavlidou, V; Pazderska, B; Pazderski, E; Pearson, T J; Rajarshi, C; Readhead, A C S; Reig, P; Rouneq, R; Steiakaki, A; Tassis, K; Zensus, J A

    2013-01-01

    We describe the data reduction pipeline and control system for the RoboPol project. The RoboPol project is monitoring the optical $R$-band magnitude and linear polarization of a large sample of active galactic nuclei that is dominated by blazars. The pipeline calibrates and reduces each exposure frame, producing a measurement of the magnitude and linear polarization of every source in the $13'\\times 13'$ field of view. The control system combines a dynamic scheduler, real-time data reduction, and telescope automation to allow high-efficiency unassisted observations.

  15. The RoboPol pipeline and control system

    King, O. G.; Baloković, M.; Hovatta, T.; Pearson, T. J.; A. C. S. Readhead()

    2014-01-01

    We describe the data reduction pipeline and control system for the RoboPol project. The RoboPol project is monitoring the optical R-band magnitude and linear polarization of a large sample of active galactic nuclei that is dominated by blazars. The pipeline calibrates and reduces each exposure frame, producing a measurement of the magnitude and linear polarization of every source in the 13 arcmin × 13 arcmin field of view. The control system combines a dynamic scheduler, real-time data reduct...

  16. FUZZY INFERENCE BASED LEAK ESTIMATION IN WATER PIPELINES SYSTEM

    N. Lavanya

    2015-01-01

    Full Text Available Pipeline networks are the most widely used mode for transporting fluids and gases around the world. Leakage in this pipeline causes harmful effects when the flowing fluid/gas is hazardous. Hence the detection of leak becomes essential to avoid/minimize such undesirable effects. This paper presents the leak detection by spectral analysis methods in a laboratory pipeline system. Transient in the pressure signal in the pipeline is created by opening and closing the exit valve. These pressure variations are captured and power spectrum is obtained by using Fast Fourier Transform (FFT method and Filter Diagonalization Method (FDM. The leaks at various positions are simulated and located using these methods and the results are compared. In order to determine the quantity of leak a 2 × 1 fuzzy inference system is created using the upstream and downstream pressure as input and the leak size as the output. Thus a complete leak detection, localization and quantification are done by using only the pressure variations in the pipeline.

  17. USING COMPUTER MODELS FOR DESIGN OF COMPLEX PIPELINE SYSTEMS

    S. V. Kolesnikov

    2014-01-01

    Full Text Available The main rules of computer models construction were developed, which intended for pipeline networks design and they were considered as single whole hydraulic systems. The construction of new sections is possible after their design in order to provide operation in given regime. In heat networks operation we see the following problems: irregular change in pressure between direct and return pipelines, increased pressure in return pipeline, misalignment of network and others. Their causes may be: undersize thickness of pipelines, reduction in diameter caused by scales in internal surfaces of pipes, closure of gate valves in sections of networks with big speeds of heat coolant, “parasitic” circulations and others. Efficient mean for determining the main reasons of these problems, they may be in any heat pipeline, and also for new heating pipe networks design we consider computer models, which allow to simulate (practically in the whole volume hydraulic and temperature regimes of their work.  The purpose of work – using computer models for implementation of project of new heat removal pipe from Tolyatti central thermal station in order to heat the Central Region of Tolyatti, feeding from heat power station of the Volga car factory .With the help of developed computer model the location of equipment and their main characteristics were determined, they take into account joint work of two sources of heat (central thermal station of Tolyatti and the Volga car factory. 

  18. Cathodic Protection of Pipeline Using Distributed Control System

    Gopalakrishnan Jayapalan

    2014-01-01

    Full Text Available Distributed control system (DCS is available in most of the compressor stations of cross-country pipeline systems. Programmable logic controller (PLC is used in all the intermediate pigging (IP stations/sectional valve (SV stations to collect the field data and to control the remote actuated valves. This paper presents how DCS or PLC can be used for cathodic protection of gas pipelines. Virtual instrumentation (VI software is used here for simulation and real-time implementation purpose. Analog input channels available in DCS/PLC can be used to measure pipe to soil potential (PSP with the help of half-cell and voltage transducer. Logic blocks available in DCS can be used as low selector switch to select the lowest PSP. Proportional-integral (PI controller available in DCS/PLC can be used for taking the controlling action. PI controller output varies the firing angle of AC phase controller. Phase controller output is rectified, filtered, and fed to the pipeline as cathodic protection current. Proposed scheme utilizes existing infrastructure to control pipeline corrosion.

  19. Active coatings technologies for tailorable military coating systems

    Zunino, J. L., III

    2007-04-01

    The main objective of the U.S. Army's Active Coatings Technologies Program is to develop technologies that can be used in combination to tailor coatings for utilization on Army Materiel. The Active Coatings Technologies Program, ACT, is divided into several thrusts, including the Smart Coatings Materiel Program, Munitions Coatings Technologies, Active Sensor packages, Systems Health Monitoring, Novel Technology Development, as well as other advanced technologies. The goal of the ACT Program is to conduct research leading to the development of multiple coatings systems for use on various military platforms, incorporating unique properties such as self repair, selective removal, corrosion resistance, sensing, ability to modify coatings' physical properties, colorizing, and alerting logistics staff when tanks or weaponry require more extensive repair. A partnership between the U.S. Army Corrosion Office at Picatinny Arsenal, NJ along with researchers at the New Jersey Institute of Technology, NJ, Clemson University, SC, University of New Hampshire, NH, and University of Massachusetts (Lowell), MA, are developing the next generation of Smart Coatings Materiel via novel technologies such as nanotechnology, Micro-electromechanical Systems (MEMS), meta-materials, flexible electronics, electrochromics, electroluminescence, etc. This paper will provide the reader with an overview of the Active Coatings Technologies Program, including an update of the on-going Smart Coatings Materiel Program, its progress thus far, description of the prototype Smart Coatings Systems and research tasks as well as future nanotechnology concepts, and applications for the Department of Defense.

  20. Using Geographic Information System - GIS - for pipeline management: case of Urucu-Coari LPG pipeline

    Furquim, Maysa P.O. [ESTEIO Engenharia e Aerolevantamentos S.A, Curitiba, PR (Brazil)

    2009-07-01

    This technical paper seeks to demonstrate the stages run during the GIS - Geographic Information System accomplishment as for the follow-up of a pipeline work. The GLPDUTO (LPG Pipeline) Urucu-Coari work shall be the focus of this paper. The main challenges in the compilation of data generated in the work site will be presented, as well the importance for the definition of which data should be relevant, so that the construction company and PETROBRAS could follow up its evolution. The GIS development has been performed since January 2007 and should be finished by the first semester of 2009. The following stages for GIS definition for the work management will be presented: brief history of the project - project conception, purpose, structure implemented and accomplishment expectations; survey data in loco - raw data obtained directly during the carrying out of the work and generated in the project and implantation stage; treated data - data resulting from raw data, but already treated as for the GIS environment; routines developed - specific tools created for the consolidation of the data to be manipulated on GIS in an optimized and functional way; result presented - GIS in its final conception, developed and input with the routines and data regarding the project. (author)

  1. Research on a New-style Pipeline Inspection Robot System

    XU Xiao-yun; YAN Guo-zheng; YAN Bo; DING Yong-sheng

    2004-01-01

    The pipe inspection robot system is developed for automatic inspection of gas pipeline with pipe diameter between 400mm and 650mm. It is composed of a pipe robot crawling mechanism controlled by remote network system, nondestructive examination sensor system, ground working station and so on. This paper presents the pipe inspection robot system design, the key technique and the performance experiment of the robot. The main performance index of the pipe robot system prototype has reached domestic advanced level. The prototype has also the technical potential to be developed as a product used in industry for periodic check of main gas/oil pipe.

  2. Nuclear waste tank and pipeline external leak detection systems

    The development of two external waste tank and pipeline leak detection systems based on the electrical potential fields is reviewed. The Boeing system measured the distortion of an imposed ac potential field. The Battelle--Northwest system measured the change in the magnitude of the existing dc potential field generated by the cathodic protection system and the local electrochemical potential near the electrodes in the sediment. It was found that in a dry area the systems can detect as low as 200 liters of leakage. The engineering assistance to the tank farm management in assessing the suspected leakers is also presented

  3. CHARACTERIZATION OF EXTERNAL INDUCED CORROSION DEGRADATION OF AJAOKUTA-ABUJA GAS PIPELINE SYSTEM, NIGERIA

    ADEDIPE OYEWOLE

    2011-01-01

    Characterization of External Induced corrosion degradation of Ajaokuta- Abuja gas pipeline system was successfully carried out. The objective of this work is to analyze the mechanism of corrosion, analyze the effect of the corrosion on oil and gas pipeline and to evaluate the corrosion potential of a pipeline route. These were achieved by carrying out resistivity experiment on every one kilometer on the right of way (ROW) of the pipeline. Soil and water aggressiveness test was also carried ou...

  4. Engineering considerations for corrosion monitoring of gas gathering pipeline systems

    Braga, T.G.; Asperger, R.G.

    1987-01-01

    Proper corrosion monitoring of gas gathering pipelines requires a system review to determine the appropriate monitor locations and types of monitoring techniques. This paper develops and discusses a classification of conditions such as flow regime and gas composition. Also discussed are junction categories which, for corrosion monitoring, need to be considered from two points of view. The first is related to fluid flow in the line and the second is related corrosion inhibitor movement along the pipeline. The appropriate application of the various monitoring techniques such as coupons, hydrogen detectors, electrical resistance probe and linear polarization probes are discussed in relation to flow regime and gas composition. Problems caused by semi-conduction from iron sulfide are considered. Advantages and disadvantages of fluid gathering methods such as pots and flow-through drips are discussed in relation to their reliability as on-line monitoring locations.

  5. Practical approach on gas pipeline compression system availability analysis

    Santos, Sidney Pereira dos [PETROBRAS S.A., Rio de Janeiro, RJ (Brazil); Kurz, Rainer; Lubomirsky, Matvey [Solar Turbines, San Diego, CA (United States)

    2009-12-19

    Gas pipeline projects traditionally have been designed based on load factor and steady state flow. This approach exposes project sponsors to project sustainability risks due to potential losses of revenues and transportation contract penalties related to pipeline capacity shortage as consequence of compressor unit's unavailability. Such unavailability should previously be quantified during the design phase. This paper presents a case study and a methodology that highlights the practical benefits of applying Monte Carlo simulation for the compression system availability analysis in conjunction with quantitative risk analysis and economic feasibility study. Project economics main variables and their impacts on the project NPV (Net Present Value) are evaluated with their respective statistics distribution to quantify risk and support decision makers to adopt mitigating measures to guarantee competitiveness while protecting project sponsors from otherwise unpredictable risks. This practical approach is compared to load factor approach and the results are presented and evaluated. (author)

  6. An electrochemical method for evaluating the resistance to cathodic disbondment of anti-corrosion coatings on buried pipelines

    2007-01-01

    Methods for evaluating the resistance to cathodic disbondment (RCD) of anti-corrosion coatings on buried pipelines were reviewed. It is obvious that these traditional cathodic disbondment tests (CDT) have some disadvantages and the evaluated results are only simple figures and always rely on the subjective experience of the operator. A new electrochemical method for evaluating the RCD of coatings, that is, the potentiostatic evaluation method (PEM), was developed and studied. During potentiostatic anodic polarization testing, the changes of stable polarization current of specimens before and after cathodic disbonding (CD) were measured,and the degree of cathodic disbondment of the coating was quantitatively evaluated, among which the equivalent cathodic disbonded distance △D was suggested as a parameter for evaluating the RCD. A series of testing parameters of the PEM were determined in these experiments.

  7. Chrome - Free Aluminum Coating System

    Bailey, John H.; Gugel, Jeffrey D.

    2010-01-01

    This slide presentation concerns the program to qualify a chrome free coating for aluminum. The program was required due to findings by OSHA and EPA, that hexavalent chromium, used to mitigate corrosion in aerospace aluminum alloys, poses hazards for personnel. This qualification consisted of over 4,000 tests. The tests revealed that a move away from Cr+6, required a system rather than individual components and that the maximum corrosion protection required pretreatment, primer and topcoat.

  8. Design of oil pipeline leak detection and communication system based on optical fiber technology

    Tu, Yaqing; Chen, Huabo

    1999-08-01

    The integrity of oil pipeline is always a major concern of operators. Pipeline leak not only leads to loss of oil, but pollutes environment. A new pipeline leak detection and communication system based on optical fiber technology to ensure the pipeline reliability is presented. Combined direct leak detection method with an indirect one, the system will greatly reduce the rate of false alarm. According, to the practical features of oil pipeline,the pipeline communication system is designed employing the state-of-the-art optic fiber communication technology. The system has such feature as high location accuracy of leak detection, good real-time characteristic, etc. which overcomes the disadvantages of traditional leak detection methods and communication system effectively.

  9. Estimating Performance of Pipelined Spoken Language Translation Systems

    Rayner, M; Price, P; Lyberg, B; Rayner, Manny; Carter, David; Price, Patti; Lyberg, Bertil

    1994-01-01

    Most spoken language translation systems developed to date rely on a pipelined architecture, in which the main stages are speech recognition, linguistic analysis, transfer, generation and speech synthesis. When making projections of error rates for systems of this kind, it is natural to assume that the error rates for the individual components are independent, making the system accuracy the product of the component accuracies. The paper reports experiments carried out using the SRI-SICS-Telia Research Spoken Language Translator and a 1000-utterance sample of unseen data. The results suggest that the naive performance model leads to serious overestimates of system error rates, since there are in fact strong dependencies between the components. Predicting the system error rate on the independence assumption by simple multiplication resulted in a 16\\% proportional overestimate for all utterances, and a 19\\% overestimate when only utterances of length 1-10 words were considered.

  10. Comprehensive long distance and real-time pipeline monitoring system based on fiber optic sensing

    Nikles, Marc; Ravet, Fabien; Briffod, Fabien [Omnisens S.A., Morges (Switzerland)

    2009-07-01

    An increasing number of pipelines are constructed in remote regions affected by harsh environmental conditions. These pipeline routes often cross mountain areas which are characterized by unstable grounds and where soil texture changes between winter and summer increase the probability of hazards. Due to the long distances to be monitored and the linear nature of pipelines, distributed fiber optic sensing techniques offer significant advantages and the capability to detect and localize pipeline disturbance with great precision. Furthermore pipeline owner/operators lay fiber optic cable parallel to transmission pipelines for telecommunication purposes and at minimum additional cost monitoring capabilities can be added to the communication system. The Brillouin-based Omnisens DITEST monitoring system has been used in several long distance pipeline projects. The technique is capable of measuring strain and temperature over 100's kilometers with meter spatial resolution. Dedicated fiber optic cables have been developed for continuous strain and temperature monitoring and their deployment along the pipeline has enabled permanent and continuous pipeline ground movement, intrusion and leak detection. This paper presents a description of the fiber optic Brillouin-based DITEST sensing technique, its measurement performance and limits, while addressing future perspectives for pipeline monitoring. (author)

  11. Enhanced zirconia thermal barrier coating systems

    Clarke, D.; Levi, C.; Evans, A. [College of Engineering Santa Barbara (United States). University of California Materials Department

    2006-07-01

    The results of a research programme sponsored by the Department of Energy and directed at establishing some of the scientific issues underpinning the development of enhanced zirconia thermal barrier coatings (TBCs) are reviewed. Our studies have established the stability ranges for both yttria stabilized and codoped zirconia coating materials and identified the mechanisms responsible for failure of current coating systems. These reveal that it is likely that present EB-PVD coatings systems are limited by the performance of current bond-coats and their oxidation behaviour, especially under thermal cycle conditions, rather than the zirconia coating material itself. These studies provide the scientific framework for the development of enhanced zirconia-based thermal barrier coating systems for advanced industrial gas turbine engine applications. (author)

  12. Evaluating an SH wave EMAT system for pipeline screening and extending into quantitative defect measurements

    Clough, Matthew; Dixon, Steve; Fleming, Matthew; Stone, Mark

    2016-02-01

    Guided waves are now commonly used in industrial NDT for locating corrosion in pipelines in the form of wall thinning. Shear Horizontal waves generated by EMATs are used in a screening arrangement in this work to locate and size corrosion in terms of axial extent and circumferential positioning. This is facilitated by propagating SH waves circumferentially around the pipeline whilst moving a scanning rig axially, keeping transducer separation constant. This arrangement is preferential in that it can operate through thin(up to 1mm) coatings and does not require full access to the pipe's circumference and is useful for detecting corrosion in difficult to access regions, such as below pipe supports and in subsea applications. The performance of the system in terms of screening capability and the possibilities of extension into more quantitative measures are assessed. The behaviour of different wave modes as they interact with defects is investigated via experimental measurements on artificially induced corrosion patches and measurements on samples with in service corrosion. Measurement of the axial extent of corrosion patches, circumferential positioning and a range of possible remaining thickness is assessed. Finite element modelling of SH mode interaction with defects is used to understand what happens to different wave modes when they interact with defects in terms of reflection, diffraction and mode conversion.

  13. Towards photometry pipeline of the Indonesian space surveillance system

    Priyatikanto, Rhorom; Religia, Bahar; Rachman, Abdul; Dani, Tiar

    2015-09-01

    Optical observation through sub-meter telescope equipped with CCD camera becomes alternative method for increasing orbital debris detection and surveillance. This observational mode is expected to eye medium-sized objects in higher orbits (e.g. MEO, GTO, GSO & GEO), beyond the reach of usual radar system. However, such observation of fast moving objects demands special treatment and analysis technique. In this study, we performed photometric analysis of the satellite track images photographed using rehabilitated Schmidt Bima Sakti telescope in Bosscha Observatory. The Hough transformation was implemented to automatically detect linear streak from the images. From this analysis and comparison to USSPACECOM catalog, two satellites were identified and associated with inactive Thuraya-3 satellite and Satcom-3 debris which are located at geostationary orbit. Further aperture photometry analysis revealed the periodicity of tumbling Satcom-3 debris. In the near future, it is not impossible to apply similar scheme to establish an analysis pipeline for optical space surveillance system hosted in Indonesia.

  14. Progress in coating development for fusion systems

    Development of effective and reliable coatings is a key to the viability of most, if not all, fusion blanket systems. The specific purpose and requirements of the coatings vary widely, depending on the blanket concept. The efforts on coating development to date have focused primarily on electrically insulating coatings for the self-cooled lithium concepts with a vanadium alloy structure, and the tritium barrier coatings for the water-cooled, Pb-Li (WCLL) breeder concepts with ferritic steel structures. Although other coating materials are under consideration, most of the effort on the electrically insulating coatings has focused on CaO and AlN coatings on V-4Cr-4Ti alloy structure. Most of the effort on the tritium barrier coating development is focused on Al2O3 coatings formed on aluminized ferritic steels. This paper presents an overview of the status of coating development for the various fusion concepts with emphasis on the materials interaction and chemistry control issues associated with the formation, stability and performance of the coatings

  15. Multi-pipeline geographical information system based on high accuracy inertial surveys

    Czyz, J.A.; Pettigrew, C. [BJ Pipeline Inspection Services, Calgary, AB (Canada); Pino, H.; Gomez, R. [Pemex Refinacion, Mexico City, (Mexico)

    2000-07-01

    The GIS system developed for the Pemex pipeline network in the Valley of Mexico was described. The system makes it possible to retrieve information on the precise location of pipelines and their features. It also displays their relative position to each other and other landmarks. It is useful in accurately identifying linear features. The system facilitates the management of various pipeline data. The UTM coordinates which are the basis of the geographical information system (GIS) were obtained from Geopig{sup R} inertial and caliper surveys which provided information on pipeline features and anomalies. The information was incorporated into the GIS along with metal loss data from past in-line inspections. The system is based on the ArcView{sup R} GIS Software with the ArcView 3D Analyst{sup TM} extension that makes it possible to view the cartography and pipeline data in 3D. One of the biggest advantages of the GIS system is that it stores a multitude of information from various pipelines into one database which is easy to manage and update. For example, it stores information on pipeline plan, profile, girth weld locations, dents, wall thickness, bending strains, metal loss and other features such as roads, buildings, political boundaries and hydrology. This makes it possible to detect defects and anomalies and helps to eliminate unnecessary excavations. It also helps to plan and schedule pipeline repairs. 7 refs., 7 figs.

  16. 78 FR 71036 - Pipeline Safety: Random Drug Testing Rate; Contractor Management Information System Reporting...

    2013-11-27

    ...; Contractor Management Information System Reporting; and Obtaining Drug and Alcohol Management Information System Sign-In Information AGENCY: Pipeline and Hazardous Materials Safety Administration (PHMSA), DOT... Operators to Report Contractor Management Information System (MIS) Data; and New Method for Operators...

  17. Three-Layer PE Corrosion-Inhibiting Coating for Steel Pipeline

    Li Aiguo; Zheng Aijing

    1994-01-01

    @@ RIET (Research Institute of Engineering Technology of China National Petroleum Corporation)had got a lender contract for manufacturing corrosion-inhibiting coating for steel pipe piles through international competitive bidding in the extension section project of Dandong Port (China)in 1992. The contract had been completed by May 1993. Now, brief descriptions of the corrosion-inhibiting coating manufactured by RIETare presented as following.

  18. Multi objective optimization of line pack management of gas pipeline system

    This paper addresses the Line Pack Management of the ''GZ1 Hassi R'mell-Arzew'' gas pipeline. For a gas pipeline system, the decision-making on the gas line pack management scenarios usually involves a delicate balance between minimization of the fuel consumption in the compression stations and maximizing gas line pack. In order to select an acceptable Line Pack Management of Gas Pipeline scenario from these two angles for ''GZ1 Hassi R'mell- Arzew'' gas pipeline, the idea of multi-objective decision-making has been introduced. The first step in developing this approach is the derivation of a numerical method to analyze the flow through the pipeline under transient isothermal conditions. In this paper, the solver NSGA-II of the modeFRONTIER, coupled with a matlab program was used for solving the multi-objective problem

  19. Pipeline transport of fossile fuels

    Vlasák, Pavel

    2003-01-01

    The paper deals with hydraulic pipeline transport of fossil fuels. A general analysis of coal and heavy viscous oil pipelining systems is introduced and pipeline transport of concentrated coal-water slurry, coal-water fuel, coal pipelining in other than water carrier liquid (e.g. methanol) and capsule pipeline transport (coal-log pipelining) is described.

  20. SPADOCK: Adaptive Pipeline Technology for Web System using WebSocket

    Aries RICHI; Riri Fitri SARI

    2013-01-01

    As information technology grows to the era of IoT(Internet of Things) and cloud computing, the performance ofweb application and web service which acts as the informationgateway becomes an issue. Horizontal quality of serviceimprovement through system performance escalation becomesan issue pursued by engineers and scientists, giving birth toBigPipe pipeline technology which was developed by Facebook.We make SPADOCK, an adaptive pipeline system which is builtunder distributed system architectu...

  1. Pipeline integrity through cathodic protection

    Kumar, N. [Gas Authority India Ltd., New Delhi (India); Khanna, A.S. [Indian Inst. of Technology, Bombay (India)

    2008-07-01

    Pipeline integrity management is defined as a process for assessing and mitigating pipeline risks in an effort to reduce both the likelihood and consequences of incidents. Defects on pipelines result in production losses, environmental losses, as well as loss of goodwill and subsequent financial losses. This presentation addressed pipeline integrity through cathodic protection. It noted that pipeline integrity can be strengthened by successfully controlling, monitoring and mitigating corrosion strategies. It can also be achieved by avoiding external and internal corrosion failures. A good coating offers the advantages of low current density; lower power consumption; low wear of anodes; larger spacing between cathodic protection stations; and minimization of interference problems. The presentation reviewed cathodic protection of cross-country pipelines; a sacrificial cathodic protection system; and an impressed current cathodic protection system. The efficiency of a cathodic system was shown to depend on the use of reliable power sources; proper protection criterion; efficient and effective monitoring of cathodic protection; proper maintenance of the cathodic protection system; and effective remedial measures. Selection criteria, power sources, and a comparison of cathodic protection sources were also presented. Last, the presentation addressed protection criteria; current interruption circuits; monitoring of the cathodic protection system; use of corrosion coupons; advantages of weightless coupons; checking the insulating flanges for shorted bolts; insulated/short casings; anodic and cathodic interference; common corridor problems; and intelligent pigging. tabs., figs.

  2. Research on developing an underground pipeline information system with ArcGIS engine

    Yang, Jian-si; Liu, Ying-fei; Peng, Zheng-hong; Chen, Yong-xi

    2005-10-01

    The difficulty on managing underground pipeline brings forward the demand for establishing Urban Underground Pipeline Information System (UUPIS). This paper mainly introduces ArcGIS Engine, the developing platform that UUPIS is based on. And it brings forward the major function targets of UUPIS. Some key functions and major implementation algorithms are briefly introduce. At last, the paper briefly introduces the process to construct the basic system framework and the final deployment project of UUPIS.

  3. Seismic fragility formulations for segmented buried pipeline systems including the impact of differential ground subsidence

    Pineda Porras, Omar Andrey [Los Alamos National Laboratory; Ordaz, Mario [UNAM, MEXICO CITY

    2009-01-01

    Though Differential Ground Subsidence (DGS) impacts the seismic response of segmented buried pipelines augmenting their vulnerability, fragility formulations to estimate repair rates under such condition are not available in the literature. Physical models to estimate pipeline seismic damage considering other cases of permanent ground subsidence (e.g. faulting, tectonic uplift, liquefaction, and landslides) have been extensively reported, not being the case of DGS. The refinement of the study of two important phenomena in Mexico City - the 1985 Michoacan earthquake scenario and the sinking of the city due to ground subsidence - has contributed to the analysis of the interrelation of pipeline damage, ground motion intensity, and DGS; from the analysis of the 48-inch pipeline network of the Mexico City's Water System, fragility formulations for segmented buried pipeline systems for two DGS levels are proposed. The novel parameter PGV{sup 2}/PGA, being PGV peak ground velocity and PGA peak ground acceleration, has been used as seismic parameter in these formulations, since it has shown better correlation to pipeline damage than PGV alone according to previous studies. By comparing the proposed fragilities, it is concluded that a change in the DGS level (from Low-Medium to High) could increase the pipeline repair rates (number of repairs per kilometer) by factors ranging from 1.3 to 2.0; being the higher the seismic intensity the lower the factor.

  4. Drive Control System for Pipeline Crawl Robot Based on CAN Bus

    Drive control system plays important roles in pipeline robot. In order to inspect the flaw and corrosion of seabed crude oil pipeline, an original mobile pipeline robot with crawler drive unit, power and monitor unit, central control unit, and ultrasonic wave inspection device is developed. The CAN bus connects these different function units and presents a reliable information channel. Considering the limited space, a compact hardware system is designed based on an ARM processor with two CAN controllers. With made-to-order CAN protocol for the crawl robot, an intelligent drive control system is developed. The implementation of the crawl robot demonstrates that the presented drive control scheme can meet the motion control requirements of the underwater pipeline crawl robot

  5. CHARACTERIZATION OF EXTERNAL INDUCED CORROSION DEGRADATION OF AJAOKUTA-ABUJA GAS PIPELINE SYSTEM, NIGERIA

    ADEDIPE OYEWOLE

    2011-11-01

    Full Text Available Characterization of External Induced corrosion degradation of Ajaokuta- Abuja gas pipeline system was successfully carried out. The objective of this work is to analyze the mechanism of corrosion, analyze the effect of the corrosion on oil and gas pipeline and to evaluate the corrosion potential of a pipeline route. These were achieved by carrying out resistivity experiment on every one kilometer on the right of way (ROW of the pipeline. Soil and water aggressiveness test was also carried out on soil and water sample of the pipeline route respectively. The resistivity result was considerably high, chemical analysis revealed that the soil and wateracidity is between the pH of 6.7 and 8.2 respectively, which is moderately alkaline in nature, which makes the soil environment not conducive for pipelines due to potential for corrosion attack. The chloride content of the soil and water were also high. Based on the experimental results, it was proposed that the pipe should be laid on2-5m below the ground and that the galvanic anode for cathodic protection be located 1m below the ground, in order to avoid corrosion. It is therefore necessary to note that characterization of external corrosion is quite different from internal pipeline corrosion characterization.

  6. Reduce operational cost and extend the life of pipeline infrastructure by automating remote cathodic protection systems

    Rosado, Elroy [Freewave Technologies, Inc., Boulder, CO (United States). Latin America

    2009-07-01

    Energy and Pipeline Companies wrestle to control operating costs largely affected by new government regulations, ageing buried metal assets, rising steel prices, expanding pipeline operations, new interference points, HCA encroachment, restrictive land use policies, heightened network security, and an ageing soon-to-retire work force. With operating costs on the rise, seemingly out of control, many CP and Operations Professionals look to past best practices in cost containment through automation. Many companies achieve solid business results through deployment of telemetry and SCADA automation of remote assets and now hope to expand this success to further optimize operations by automating remote cathodic protection systems. This presentation will provide examples of how new remote cathodic protection systems are helping energy and pipeline companies address the growing issue of the aging pipeline infrastructure and reduce their costs while optimizing their operations. (author)

  7. Vision-Based System of AUV for An Underwater Pipeline Tracker

    ZHANG Tie-dong; ZENG Wen-jing; WAN Lei; QIN Zai-bai

    2012-01-01

    This paper describes a new framework for detection and tracking of underwater pipeline,which includes software system and hardware system.It is designed for vision system of AUV based on monocular CCD camera.First,the real-time data flow from image capture card is pre-processed and pipeline features are extracted for navigation.The region saturation degree is advanced to remove false edge point group after Sobel operation.An appropriate way is proposed to clear the disturbance around the peak point in the process of Hough transform.Second,the continuity of pipeline layout is taken into account to improve the efficiency of line extraction.Once the line information has been obtained,the reference zone is predicted by Kalman filter.It denotes the possible appearance position of the pipeline in the image.Kalman filter is used to estimate this position in next frame so that the information of pipeline of each frame can be known in advance.Results obtained on real optic vision data in tank experiment are displayed and discussed.They show that the proposed system can detect and track the underwater pipeline online,and is effective and feasible.

  8. Risk based maintenance of a cross-country petroleum pipeline system

    Dawotola, A.W.; Trafalis, T.B.; Mustaffa, Z.; Van Gelder, P.H.A.J.M.; J. K. Vrijling

    2012-01-01

    This paper proposes a data-driven approach in determining an optimal inspection interval for a petroleum pipeline system. The approach accounts for the determination of both the probability of failure and its associated consequences. The probability of failure is estimated by fitting the historical data of failure of the pipeline into either a homogenous Poisson process or non-homogenous Poisson process (power law). The analysis of historical data reveals the Poisoneous form that gives better...

  9. Seismic/geologic risks as factors in prioritizing gas pipeline system replacement

    During the past decade, Pacific Gas and Electric Company (PG and E) has intensified efforts to evaluate earthquake hazards and their potential effects on gas and electric power systems, with the goals of implementing reduction of earthquake vulnerability and increasing post-earthquake reliability. The earthquake lifeline engineering approach applied to the gas pipeline system involves identifying potential locations of high-probability, large-magnitude scenario earthquakes; developing seismic zonation maps for surface fault rupture, liquefaction potential, and slope-failure potential; evaluating the condition of the existing gas pipeline system and the consequences of the scenario earthquakes in order to assess and implement mitigations. This paper describes an example of application of this approach to modify the PG and E Gas Pipeline Replacement Program (GPRP), which is a long-term replacement of aging and leak-prone installed pipelines. An additional pipeline prioritization factor is defined and applied to accelerate the replacement of GPRP pipeline segments in areas subject to earthquake effects that are likely to increase gas leak potential

  10. Rehabilitation and certification of the PGPB Cactus-San Fernando gas pipeline system

    Graciano, L.S. [Permex Gas y Petroquimica Basica, Mexico City (Mexico); Clyne, A. [GE Energy PII Pipeline Solutions, Buenos Aires (Argentina); Cazenave, P.; Willis, S. [GE Energy PII Pipeline Solutions, Houston, TX (United States); Kania, R. [GE Energy Pipeline Solutions, Calgary, AB (Canada)

    2004-07-01

    The Cactus-San Fernando gas pipeline system is 650 km in length and was constructed in the late 1970s. The system transports more than 1100 million standard cubic feet per day of dry natural gas to electricity generators in Mexico. This paper described a project undertaken to re-validate the pipeline and demonstrate the future integrity of the pipeline system and ensure that it was suitable for operation to 1219 psig. Pipeline sections were inspected using high resolution magnetic flux leakage (MFL) in-line inspection (ILI) tools, and inertial mapping unit vehicles equipped with global positioning surveys (GPS). The combined inspections allowed the project team to accurately identify features of the pipeline that required repairs. External and internal corrosion were identified as the most prevalent defects. RSTRENG methodologies were used to investigate the interaction of individual corrosion anomalies. Corrosion patterns were compared, and above-ground survey data were used to establish the causes of both the external and internal corrosion, as well as to establish future corrosion growth rates. Decision tree analysis was then used to analyze the growth rates and to identify statistical differences between corrosion growth rates as a function of distance along the pipeline. After the ILI reports were generated, an integrity assessment was then conducted to identify necessary repair options. Repairs plans were then developed along with recommended re-inspection intervals for each section. After the integrity assessments were accepted by a certification company, field work was conducted to locate and measure defects. Defects characteristic of major volumetric welding flaws introduced during pipeline construction were identified and repaired with an epoxy sleeve technique. It was concluded that repairs needed to operate the pipeline at the requested pressure were accomplished within a period of 8 months. 7 refs., 2 tabs., 4 figs.

  11. Regular pipeline maintenance of gas pipeline using technical operational diagnostics methods

    Volentic, J. [Gas Transportation Department, Slovensky plynarensky priemysel, Slovak Gas Industry, Bratislava (Slovakia)

    1997-12-31

    Slovensky plynarensky priemysel (SPP) has operated 17 487 km of gas pipelines in 1995. The length of the long-line pipelines reached 5 191 km, distribution network was 12 296 km. The international transit system of long-line gas pipelines ranged 1 939 km of pipelines of various dimensions. The described scale of transport and distribution system represents a multibillion investments stored in the ground, which are exposed to the environmental influences and to pipeline operational stresses. In spite of all technical and maintenance arrangements, which have to be performed upon operating gas pipelines, the gradual ageing takes place anyway, expressed in degradation process both in steel tube, as well as in the anti-corrosion coating. Within a certain time horizon, a consistent and regular application of methods and means of in-service technical diagnostics and rehabilitation of existing pipeline systems make it possible to save substantial investment funds, postponing the need in funds for a complex or partial reconstruction or a new construction of a specific gas section. The purpose of this presentation is to report on the implementation of the programme of in-service technical diagnostics of gas pipelines within the framework of regular maintenance of SPP s.p. Bratislava high pressure gas pipelines. (orig.) 6 refs.

  12. Recovery of the external anticorrosion protection systems of onshore pipelines - evaluation methods and practical results; Recuperacao de sistemas de protecao anticorrosiva externa de dutos terrestres - metodos de avaliacao e resultados praticos

    Castinheiras, Wilson; Koebsch, Andre; Silva, Flavio A. da [PETROBRAS S.A., Rio de Janeiro, RJ (Brazil)

    2003-07-01

    The rehabilitation of an old pipeline means to increase its lifetime, making it safety to operate in the necessaries conditions to transport the product. The pipe steel wall evaluation, related to it thickness reduction, due to, basically, internal and external corrosion, is fundamental to guide its rehabilitation. The techniques used to this evaluation are 'pig' and specials field survey. These last surveys are realized over the soil surface (digs is not necessary to access the pipeline or the pipeline operation is not necessary to stop) and objective to verify the pipeline coating and Cathodic Protection System conditions. Due to the actual authors experience, this paper will only treat of the Rehabilitation of the External Anti corrosive Protection System (coating and cathodic protection) of onshore pipelines. This paper present the techniques current attenuation, ON-OFF pipe-to-soil potential close interval survey and DCVG and same practical results obtained with the application of these techniques on the Sergipe/Bahia gas pipeline. (author)

  13. Diagnosis of pipelines - An expert system for failure analysis; Diagnose von Rohrleitungen

    Farshad, M.

    2003-07-01

    This article describes an expert system for the failure analysis of pipelines (EFAP) that can be used for various types of pipelines and overhead lines made of metallic or non-metallic materials as well as for pressure-bearing and pressure-free pipeline applications. The EFAP system identifies the environmental influences of a mechanical, physical, thermal, chemical and biological nature that can cause failures. The article describes the development of the EFAP system and discusses the expert know-how contained in the system that was collected from many experts. Methods of reliability assessment and failure analysis are discussed and the analysis mechanisms used in the EFAP expert system are described. Application areas for the system are discussed.

  14. Analysis of pipeline transportation systems for carbon dioxide sequestration

    Witkowski Andrzej

    2014-03-01

    Full Text Available A commercially available ASPEN PLUS simulation using a pipe model was employed to determine the maximum safe pipeline distances to subsequent booster stations as a function of carbon dioxide (CO2 inlet pressure, ambient temperature and ground level heat flux parameters under three conditions: isothermal, adiabatic and with account of heat transfer. In the paper, the CO2 working area was assumed to be either in the liquid or in the supercritical state and results for these two states were compared. The following power station data were used: a 900 MW pulverized coal-fired power plant with 90% of CO2 recovered (156.43 kg/s and the monothanolamine absorption method for separating CO2 from flue gases. The results show that a subcooled liquid transport maximizes energy efficiency and minimizes the cost of CO2 transport over long distances under isothermal, adiabatic and heat transfer conditions. After CO2 is compressed and boosted to above 9 MPa, its temperature is usually higher than ambient temperature. The thermal insulation layer slows down the CO2 temperature decrease process, increasing the pressure drop in the pipeline. Therefore in Poland, considering the atmospheric conditions, the thermal insulation layer should not be laid on the external surface of the pipeline.

  15. Applications of ZigBee Technology in the Safety Monitoring System of Low Gas Pipeline Transportation

    Wei Deyu

    2015-01-01

    Full Text Available The existing safety monitoring system of low gas pipeline transportation establishes a wired communication network monitoring system mainly on the basis of industrial bus. It has problems such as large transmission signal attenuation, complex wiring, high-labor intensity, inconvenient installation and maintenance, high maintenance cost, and so on. Featuring low cost, power-saving, reliability, stability and flexibility, the wireless sensor network established by ZigBee wireless communication technology can realize the real-time all-dimensional dynamic monitoring on parameters of low gas pipeline transportation system and overcome the shortcomings and deficiencies of wired network system.

  16. Optics and multilayer coatings for EUVL systems

    Soufli, R; Bajt, S; Hudyma, R M; Taylor, J S

    2008-03-21

    EUV lithography (EUVL) employs illumination wavelengths around 13.5 nm, and in many aspects it is considered an extension of optical lithography, which is used for the high-volume manufacturing (HVM) of today's microprocessors. The EUV wavelength of illumination dictates the use of reflective optical elements (mirrors) as opposed to the refractive lenses used in conventional lithographic systems. Thus, EUVL tools are based on all-reflective concepts: they use multilayer (ML) coated optics for their illumination and projection systems, and they have a ML-coated reflective mask.

  17. A computational platform for modeling and simulation of pipeline georeferencing systems

    Guimaraes, A.G.; Pellanda, P.C.; Gois, J.A. [Instituto Militar de Engenharia (IME), Rio de Janeiro, RJ (Brazil); Roquette, P.; Pinto, M.; Durao, R. [Instituto de Pesquisas da Marinha (IPqM), Rio de Janeiro, RJ (Brazil); Silva, M.S.V.; Martins, W.F.; Camillo, L.M.; Sacsa, R.P.; Madeira, B. [Ministerio de Ciencia e Tecnologia (CT-PETRO2006MCT), Brasilia, DF (Brazil). Financiadora de Estudos e Projetos (FINEP). Plano Nacional de Ciencia e Tecnologia do Setor Petroleo e Gas Natural

    2009-07-01

    This work presents a computational platform for modeling and simulation of pipeline geo referencing systems, which was developed based on typical pipeline characteristics, on the dynamical modeling of Pipeline Inspection Gauge (PIG) and on the analysis and implementation of an inertial navigation algorithm. The software environment of PIG trajectory simulation and navigation allows the user, through a friendly interface, to carry-out evaluation tests of the inertial navigation system under different scenarios. Therefore, it is possible to define the required specifications of the pipeline geo referencing system components, such as: required precision of inertial sensors, characteristics of the navigation auxiliary system (GPS surveyed control points, odometers etc.), pipeline construction information to be considered in order to improve the trajectory estimation precision, and the signal processing techniques more suitable for the treatment of inertial sensors data. The simulation results are analyzed through the evaluation of several performance metrics usually considered in inertial navigation applications, and 2D and 3D plots of trajectory estimation error and of recovered trajectory in the three coordinates are made available to the user. This paper presents the simulation platform and its constituting modules and defines their functional characteristics and interrelationships.(author)

  18. Pipeline corrosion assessment using embedded Fiber Bragg grating sensors

    Liang, Xiao; Huang, Ying; Galedari, Sahar Abuali; Azarmi, Fardad

    2015-04-01

    Corrosion is a leading cause of failure in metallic transmission pipelines. It significantly impacts the reliability and safety of metallic pipelines. An accurate assessment of corrosion status of the pipelines would contribute to timely pipeline maintenance and repair and extend the service life of the associated pipelines. To assess pipeline corrosion, various technologies have been investigated and the pipe-to-soil voltage potential measurement was commonly applied. However, remote and real-time corrosion assessment approaches are in urgent needs but yet achieved. Fiber optic sensors, especially, fiber Bragg gating (FBG) sensors, with unique advantages of real-time sensing, compactness, immune to EMI and moisture, capability of quasi-distributed sensing, and long life cycle, will be a perfect candidate for longterm pipeline corrosion assessment. In this study, FBG sensors are embedded inside pipeline external coating for corrosion monitoring of on-shore buried metallic transmission pipelines. Detail sensing principle, sensor calibration and embedment are introduced in this paper together with experimental corrosion evaluation testing ongoing. Upon validation, the developed sensing system could serve the purpose of corrosion monitoring to the numerous metallic pipelines across nation and would possibly reduce the pipeline corrosion induced tragedies.

  19. The Economics of the Nord Stream Pipeline System

    Chyong, Chi Kong; No?l, Pierre; Reiner, David M.

    2010-01-01

    We calculate the total cost of building Nord Stream and compare its levelised unit transportation cost with the existing options to transport Russian gas to western Europe. We find that the unit cost of shipping through Nord Stream is clearly lower than using the Ukrainian route and is only slightly above shipping through the Yamal-Europe pipeline. Using a large-scale gas simulation model we find a positive economic value for Nord Stream under various scenarios of demand for Russian gas i...

  20. A Real-time Monitoring System for the Pipeline Network of Coalmine

    The pipeline network of coalmine has the characteristics of widespread distribution and complex structure. It is difficult to detect abnormalities in time by manual when the faults occurred, which often lead to reduction in production. In this paper, a monitoring system is developed to monitor the operating conditions of the pipeline network in real-time. The system has abilities to dynamic monitoring, real-time display, and failure alarm and leakage location. Therefore, the faults detection and maintenance can be implemented timely to ensure the safety of coalmine production due to the real-time condition monitoring of the pipeline network. Moreover, the resources allocation, production efficiency and management level can also be improved obviously. In addition, this real-time monitoring system has shown significant performance in applying it in Dongtan Coal Mine, Yanzhou Coal Mining Co., Ltd and Wennan Coal Mine, Shandong Energy Xinwen Mining Group Co., Ltd, China.

  1. A Real-time Monitoring System for the Pipeline Network of Coalmine

    Zhao, H. L.; Wang, J. K.; Jiang, X.

    2012-05-01

    The pipeline network of coalmine has the characteristics of widespread distribution and complex structure. It is difficult to detect abnormalities in time by manual when the faults occurred, which often lead to reduction in production. In this paper, a monitoring system is developed to monitor the operating conditions of the pipeline network in real-time. The system has abilities to dynamic monitoring, real-time display, and failure alarm and leakage location. Therefore, the faults detection and maintenance can be implemented timely to ensure the safety of coalmine production due to the real-time condition monitoring of the pipeline network. Moreover, the resources allocation, production efficiency and management level can also be improved obviously. In addition, this real-time monitoring system has shown significant performance in applying it in Dongtan Coal Mine, Yanzhou Coal Mining Co., Ltd and Wennan Coal Mine, Shandong Energy Xinwen Mining Group Co., Ltd, China.

  2. Study on the flow in the pipelines of the support system of circulating fluidized bed

    Meng, L.; Yang, J.; Zhou, L. J.; Wang, Z. W.; Zhuang, X. H.

    2013-12-01

    In the support system of Circulating Fluidized Bed (Below referred to as CFB) of thermal power plant, the pipelines of primary wind are used for transporting the cold air to the boiler, which is important in controlling and combustion effect. The pipeline design will greatly affect the energy loss of the system, and accordingly affect the thermal power plant economic benefits and production environment. Three-dimensional numerical simulation is carried out for the pipeline internal flow field of a thermal power plant in this paper. Firstly three turbulence models were compared and the results showed that the SST k-ω model converged better and the energy losses predicted were closer to the experimental results. The influence of the pipeline design form on the flow characteristics are analysed, then the optimization designs of the pipeline are proposed according to the energy loss distribution of the flow field, in order to reduce energy loss and improve the efficiency of tunnel. The optimization plan turned out to be efficacious; about 36% of the pressure loss is reduced.

  3. Third-Generation Partnerships for P-16 Pipelines and Cradle-through-Career Education Systems

    Lawson, Hal A.

    2013-01-01

    Amid unprecedented novelty, complexity, turbulence, and conflict, it is apparent that a new education system is needed. Focused on a new outcome--postsecondary education completion with advanced competence--heretofore separate systems for early childhood, K-12 schools, and postsecondary education are being joined in P-16 pipelines and…

  4. Multi-level access control in the data pipeline of the international supply chain system

    Pruksasri, P.; Berg, J. van den; Hofman, W.; Daskapan, S.

    2013-01-01

    The Seamless Integrated Data Pipeline system was proposed to the European Union in order to overcome the information quality shortcomings of the current international supply chain information exchange systems. Next to identification and authorization of stakeholders, secure access control needs to b

  5. New method of leak detecting in diagnostic of gas pipeline system

    This report describes new directions in gas transmission pipelines diagnostics as well as new methods and equipment used to detect leaks. It was also shown that efficient and functional diagnostics system is the necessary condition to keep the exploitation of transmission systems safe. (author)

  6. Expert system for the reliability assessment of hydro-carbon transporting pipelines

    Lukacs, J.; Nagy, G.; Toeroek, I. [Department of Mechanical Technology, University of Miskolc, Miskolc-Egyetemvaros (Hungary)

    1998-12-31

    Safety operation, condition monitoring, periodical inspection and rehabilitation of high-pressure hydro-carbon transporting pipelines are a complex problem. To answer arising questions is inconceivable without technical-critical evaluation of defects - originated during manufacturing or operation - can be found on the pipeline. This evaluation must be in line with requirements of our age, i.e. it has to assert such concept of which basis is not the `possible worst` but the `just happening wrong`. Solving these problems without application of computer resources is inconceivable in our time. The final purpose of the solution is the expert system and among the components of the expert system primarily the development of the knowledge base is needed. The paper demonstrates a possible structure of the knowledge base, furthermore its fundamental elements and their contents (defect types, evaluation possibilities of defects, categorisation of pipelines) and summaries the prospective advantages of its application. (orig.) 27 refs.

  7. Gamma transmission system for detection of scale in oil exploration pipelines

    The goal of this study is to detect and quantify the thickness of the scale layer inside the service pipelines. For this purpose, a system composed of a 137Cs source and a NaI(Tl) scintillation detector was developed. The source and the detector were positioned in geometry to make transmission measurements. A computational routine was developed to generate simulated data, which were later compared with the experimental ones, in order to calculate the thickness of scale layer. The results of the validation tests show similar values to the real ones. It was therefore possible to conclude that the procedure is efficient for the detection and quantification of materials inside pipelines, and that the system is advantageous for its application in the field, especially with respect to radioprotection. - Highlights: • Detection of scale in oil and gas pipelines. • Validation of a mathematical procedure to generate transmitted radiation profiles. • Quantification of the scale layer thickness by gamma-ray transmission

  8. ETV Program Report: Coatings for Wastewater Collection Systems - Standard Cement Materials, Epoxy Coating 4553

    The Standard Cement Materials, Inc. Standard Epoxy Coating 4553™ (SEC 4553) epoxy coating used for wastewater collection system rehabilitation was evaluated by EPA’s Environmental Technology Verification Program under laboratory conditions at the Center for Innovative Grouting Ma...

  9. Development of the updated system of city underground pipelines based on Visual Studio

    Zhang, Jianxiong; Zhu, Yun; Li, Xiangdong

    2009-10-01

    Our city has owned the integrated pipeline network management system with ArcGIS Engine 9.1 as the bottom development platform and with Oracle9i as basic database for storaging data. In this system, ArcGIS SDE9.1 is applied as the spatial data engine, and the system was a synthetic management software developed with Visual Studio visualization procedures development tools. As the pipeline update function of the system has the phenomenon of slower update and even sometimes the data lost, to ensure the underground pipeline data can real-time be updated conveniently and frequently, and the actuality and integrity of the underground pipeline data, we have increased a new update module in the system developed and researched by ourselves. The module has the powerful data update function, and can realize the function of inputting and outputting and rapid update volume of data. The new developed module adopts Visual Studio visualization procedures development tools, and uses access as the basic database to storage data. We can edit the graphics in AutoCAD software, and realize the database update using link between the graphics and the system. Practice shows that the update module has good compatibility with the original system, reliable and high update efficient of the database.

  10. Evaluation of Underwater Adhesives and Friction Coatings for In Situ Attachment of Fiber Optic Sensor System for Subsea Applications

    Tang, Henry H.; Le, Suy Q.; Orndoff, Evelyne S.; Smith, Frederick D.; Tapia, Alma S.; Brower, David V.

    2012-01-01

    Integrity and performance monitoring of subsea pipelines and structures provides critical information for managing offshore oil and gas production operation and preventing environmentally damaging and costly catastrophic failure. Currently pipeline monitoring devices require ground assembly and installation prior to the underwater deployment of the pipeline. A monitoring device that could be installed in situ on the operating underwater structures could enhance the productivity and improve the safety of current offshore operation. Through a Space Act Agreement (SAA) between the National Aeronautics and Space Administration (NASA) Johnson Space Center (JSC) and Astro Technology, Inc. (ATI), JSC provides technical expertise and testing facilities to support the development of fiber optic sensor technologies by ATI. This paper details the first collaboration effort between NASA JSC and ATI in evaluating underwater applicable adhesives and friction coatings for attaching fiber optic sensor system to subsea pipeline. A market survey was conducted to examine different commercial ]off ]the ]shelf (COTS) underwater adhesive systems and to select adhesive candidates for testing and evaluation. Four COTS epoxy based underwater adhesives were selected and evaluated. The adhesives were applied and cured in simulated seawater conditions and then evaluated for application characteristics and adhesive strength. The adhesive that demonstrated the best underwater application characteristics and highest adhesive strength were identified for further evaluation in developing an attachment system that could be deployed in the harsh subsea environment. Various friction coatings were also tested in this study to measure their shear strengths for a mechanical clamping design concept for attaching fiber optic sensor system. A COTS carbide alloy coating was found to increase the shear strength of metal to metal clamping interface by up to 46 percent. This study provides valuable data for

  11. Pentek metal coating removal system: Baseline report

    The Pentek coating removal technology was tested and is being evaluated at Florida International University (FIU) as a baseline technology. In conjunction with FIU's evaluation of efficiency and cost, this report covers evaluation conducted for safety and health issues. It is a commercially available technology and has been used for various projects at locations throughout the country. The Pentek coating removal system consisted of the ROTO-PEEN Scaler, CORNER-CUTTER reg-sign, and VAC-PAC reg-sign. They are designed to remove coatings from steel, concrete, brick, and wood. The Scaler uses 3M Roto Peen tungsten carbide cutters while the CORNER-CUTTER reg-sign uses solid needles for descaling activities. These hand tools are used with the VAC-PAC reg-sign vacuum system to capture dust and debris as removal of the coating takes place. The safety and health evaluation during the testing demonstration focused on two main areas of exposure: dust and noise. Dust exposure minimal, but noise exposure was significant. Further testing for each exposure is recommended because of the environment where the testing demonstration took place. It is feasible that the dust and noise levels will be higher in an enclosed operating environment of different construction. In addition, other areas of concern found were arm-hand vibration, whole-body, ergonomics, heat stress, tripping hazards, electrical hazards, machine guarding, and lockout/tagout

  12. Locating Mechanical Damages Using Magnetic Flux Leakage Inspection in Gas Pipeline System

    Gas transmission pipelines are often inspected and monitored using the magnetic flux leakage method. An inspection vehicle known as a 'pig' is launched into the pipeline and conveyed along the pipe by the pressure of natural gas. The pig contains a magnetizer, an array of sensors and a microprocessor-based data acquisition system for logging data. This paper describes magnetic flux leakage (MFL) signal processing used for detecting mechanical damages during an in-line inspection. The overall approach employs noise removal and clustering technique. The proposed method is computationally efficient and can easily be implemented. Results are presented and verified by field tests from an application of the signal processing

  13. Operational Challenges in Gas-To-Liquid (GTL) Transportation Through Trans Alaska Pipeline System (TAPS)

    Godwin A. Chukwu; Santanu Khataniar; Shirish Patil; Abhijit Dandekar

    2006-06-30

    Oil production from Alaskan North Slope oil fields has steadily declined. In the near future, ANS crude oil production will decline to such a level (200,000 to 400,000 bbl/day) that maintaining economic operation of the Trans-Alaska Pipeline System (TAPS) will require pumping alternative products through the system. Heavy oil deposits in the West Sak and Ugnu formations are a potential resource, although transporting these products involves addressing important sedimentation issues. One possibility is the use of Gas-to-Liquid (GTL) technology. Estimated recoverable gas reserves of 38 trillion cubic feet (TCF) on the North Slope of Alaska can be converted to liquid with GTL technology and combined with the heavy oils for a product suitable for pipeline transport. Issues that could affect transport of this such products through TAPS include pumpability of GTL and crude oil blends, cold restart of the pipeline following a prolonged winter shutdown, and solids deposition inside the pipeline. This study examined several key fluid properties of GTL, crude oil and four selected blends under TAPS operating conditions. Key measurements included Reid Vapor Pressure, density and viscosity, PVT properties, and solids deposition. Results showed that gel strength is not a significant factor for the ratios of GTL-crude oil blend mixtures (1:1; 1:2; 1:3; 1:4) tested under TAPS cold re-start conditions at temperatures above - 20 F, although Bingham fluid flow characteristics exhibited by the blends at low temperatures indicate high pumping power requirements following prolonged shutdown. Solids deposition is a major concern for all studied blends. For the commingled flow profile studied, decreased throughput can result in increased and more rapid solid deposition along the pipe wall, resulting in more frequent pigging of the pipeline or, if left unchecked, pipeline corrosion.

  14. Novel coating systems based on PVD for steel sheet

    Schuhmacher, B. [Dortmunder Oberflaechenzentrum GmbH (DOC) von Thyssen Krupp Stahl (Germany); Ehlers, K.D. [Salzgitter AG, Stahl und Technologie (Germany); Flossdorf, F.J. [Verein Deutscher Eisenhuettenwerke (VDEh) (Germany). Fachbereich Werkstofftechnik; Hagler, J. [Vereinigte Oesterreichische Eisen- und Stahlwerke AG (VOeST)-Alpine Industrieanlagenbau GmbH, Linz (Austria); Metzner, C.; Scheffel, B. [Fraunhofer-Institut fuer Elektronenstrahl und Plasmatechnik (FEP), Dresden (Germany); Steffen, R. [Stahlwerke Bremen GmbH (Germany)

    2001-08-01

    Physical vapour deposition (PVD) in combination with conventional coating processes such as hot-dip coating or electrolytic deposition offers interesting development approaches for novel steel strip coating systems. In joint-research projects of several German and Austrian steel companies with the Fraunhofer-Institute for Electron-beam and Plasma technology (FEP) different promising approaches for new PVD-coated steel sheet products, in particular in combination with conventional coating processes have been investigated. For an industrial application challenges particularly remain in terms of process development, i.e. to integrate PVD coating-processes into conventional steel strip coating lines. (orig.)

  15. Risk based maintenance of a cross-country petroleum pipeline system

    Dawotola, A.W.; Trafalis, T.B.; Mustaffa, Z.; Van Gelder, P.H.A.J.M.; Vrijling, J.K.

    2012-01-01

    This paper proposes a data-driven approach in determining an optimal inspection interval for a petroleum pipeline system. The approach accounts for the determination of both the probability of failure and its associated consequences. The probability of failure is estimated by fitting the historical

  16. The strategic priorities of the national oil and gas pipeline transport system development

    Ірина Миколаївна Ісаєва

    2015-01-01

    Full Text Available The retrospective analysis of legal documents governing relations between Ukraine, Russia and the European Union as part of their energy policies was performed. The strategic interests of participating countries and the strategic priorities of the governance with national oil and gas pipeline transport system development in particular were designated

  17. Petri net modeling and simulation of pipelined redistributions for a deadlock-free system

    Stavros I. Souravlas

    2015-12-01

    Full Text Available The growing use of multiprocessing systems has given rise to the necessity for modeling, verifying, and evaluating their performance in order to fully exploit hardware. The Petri net (PN formalism is a suitable tool for modeling parallel systems due to its basic characteristics, such as parallelism and synchronization. In addition, the PN formalism allows the incorporation of more details of the real system into the model. Examples of such details include contention for shared resources (like memory or identification of blocked processes (a definition for blocked processes is found in the Introduction section. In this paper, PNs are considered as a modeling framework to verify and study the performance of parallel pipelined communications. The main strength of the pipelines is that if organized in a proper way, they lead to overlapping of computation, communication, and read/write costs that incur in parallel communications. Most of the well-known pipelined schemes have been evaluated by theoretical analysis, queueing networks, and simulations. Usually, the factors taken into account are scheduling, message classification, and buffer spacing. To the best of our knowledge, there is no work in the literature that uses PN as a modeling tool for verification of the pipeline-based scheme. Apart from verification, a more accurate and complete model should also consider other factors, such as contentions and blocked processes. These factors have a high impact on the performance of a parallel system. The PN model presented in this paper accurately captures the behavior of the pipeline-based parallel communication system. The model considers synchronization, message scheduling, and message classification, while it is proven to be free of deadlocks and contentions. Also, the model is characterized by symmetry, so it can be used for large and complex systems.

  18. Article Including Environmental Barrier Coating System

    Lee, Kang N. (Inventor)

    2015-01-01

    An enhanced environmental barrier coating for a silicon containing substrate. The enhanced barrier coating may include a bond coat doped with at least one of an alkali metal oxide and an alkali earth metal oxide. The enhanced barrier coating may include a composite mullite bond coat including BSAS and another distinct second phase oxide applied over said surface.

  19. Feasibility assessment of path-planning for pipeline system construction of electric utilities network enhancement

    Lin, C.C.; Huang, S.J. [National Cheng Kung Univ., Tainan, Taiwan (China). Dept. of Electrical Engineering

    2007-07-01

    This paper proposed an algorithm to improve the power transmission network in Taiwan which has experienced increased competition since the addition of competitive local exchange carriers (CLEC) into the telecommunication market. Recently, the CLECs requested to rent pipelines from the original incumbent local exchange carriers (ILECs) and from the Taiwan Power Company. The Taiwan Power Company not only builds transmission lines, but also telecommunication networks using different kinds of fiber optic cables, including Optical Power Ground Wire (OPGW), All-Dielectric Self-Supporting (ADSS), and Wrapped types (WOC). This paper also discussed the integration of pipeline rent-out work with AM/FM/geographic information system software. The Java-based software determines a shortest path-planning method for the piping layout to help improve the pipeline system and the construction of an electricity network. The method is expected to increase the use of existing pipelines by improving the efficiency of network planning and maintenance. The method also reduces the potential for design faults and is easy to apply in the field due to the clear criteria. This paper described the proposed system architecture in detail and presented test results. It was shown that the use of a shortest path for the piping layout can reduce the distance between manholes in the huge network. According to test results, the proposed method is considered to be feasible. 11 refs., 2 tabs., 10 figs.

  20. DNV RP-F116 integrity management of submarine pipeline system

    Leinum, B.H.; Etterdal, B. [Det Norske Veritas (DNV), Hoevik (Norway); Augustinovic, Z. [Dong Energy, Fredericia (Denmark); Paula, A. [Det Norske Veritas (DNV), Rio de Janeiro, RJ (Brazil)

    2009-12-19

    The need to keep pipelines operating safely and efficiently is paramount for any operator. Additionally, there is an increasing awareness at both regulatory and public level. Authorities around the world are adopting a more proactive approach as they seek to minimize the risk of human injuries or harm to the environment resulting from pipeline leaks. A joint industry project (JIP) led by DNV Energy is formulating guidelines for how to manage the integrity of submarine pipeline system. The resultant document of recommended practice, DNV RP-F116, will provide the oil and gas industry with a useful tool in an area where no such formal guidance currently exists. This paper gives an overview of the RP and demonstrates the use with a case study for the Siri field. The Siri field is operated by DONG Energy, Denmark and all infield pipelines were subjected to an integrity assessment using the Integrity Management process as outlined in the upcoming DNV RP-116. In parallel with establishing the RP, DNV has further developed the web-based software system, Orbit+, which is aligned with the RP. The software system is implemented and used by Dong Energy. (author)

  1. Designing a reliable leak bio-detection system for natural gas pipelines

    Monitoring of natural gas (NG) pipelines is an important task for economical/safety operation, loss prevention and environmental protection. Timely and reliable leak detection of gas pipeline, therefore, plays a key role in the overall integrity management for the pipeline system. Owing to the various limitations of the currently available techniques and the surveillance area that needs to be covered, the research on new detector systems is still thriving. Biosensors are worldwide considered as a niche technology in the environmental market, since they afford the desired detector capabilities at low cost, provided they have been properly designed/developed and rationally placed/networked/maintained by the aid of operational research techniques. This paper addresses NG leakage surveillance through a robust cooperative/synergistic scheme between biosensors and conventional detector systems; the network is validated in situ and optimized in order to provide reliable information at the required granularity level. The proposed scheme is substantiated through a knowledge based approach and relies on Fuzzy Multicriteria Analysis (FMCA), for selecting the best biosensor design that suits both, the target analyte and the operational micro-environment. This approach is illustrated in the design of leak surveying over a pipeline network in Greece.

  2. Designing a reliable leak bio-detection system for natural gas pipelines.

    Batzias, F A; Siontorou, C G; Spanidis, P-M P

    2011-02-15

    Monitoring of natural gas (NG) pipelines is an important task for economical/safety operation, loss prevention and environmental protection. Timely and reliable leak detection of gas pipeline, therefore, plays a key role in the overall integrity management for the pipeline system. Owing to the various limitations of the currently available techniques and the surveillance area that needs to be covered, the research on new detector systems is still thriving. Biosensors are worldwide considered as a niche technology in the environmental market, since they afford the desired detector capabilities at low cost, provided they have been properly designed/developed and rationally placed/networked/maintained by the aid of operational research techniques. This paper addresses NG leakage surveillance through a robust cooperative/synergistic scheme between biosensors and conventional detector systems; the network is validated in situ and optimized in order to provide reliable information at the required granularity level. The proposed scheme is substantiated through a knowledge based approach and relies on Fuzzy Multicriteria Analysis (FMCA), for selecting the best biosensor design that suits both, the target analyte and the operational micro-environment. This approach is illustrated in the design of leak surveying over a pipeline network in Greece. PMID:21177031

  3. Optimal design of the positions of the hoops for a hydraulic pipelines system

    Highlights: ► The parametric model of the hydraulic pipelines system is constructed by ANASYS. ► The above parametric model can be called by MATLAB. ► An optimization model for the positions of the hoops is established. ► An optimization for the positions of the hoops is performed. - Abstract: This paper focuses on decreasing the vibration and improving the dynamics performances for a hydraulic pipelines system. The parametric model of the hydraulic pipelines system under the random excitations is constructed and the dynamics characteristics are obtained by the finite element analysis, then an optimization model is presented to reduce the vibration by rationally designing the positions of the hoops in the pipelines system. The dimensions determining the locations of the hoops are defined as design variables, and the dynamics performances, such as the maximum displacement, the maximum axial stress, the maximum shear stress, the maximum axial strain, the maximum hoop strain, the maximum shear strain and the failure probability of the first passage are regarded as nonlinear constraints whereas the failure probability of cumulative fatigue damage is viewed as an optimization objective. The results show that the dynamics performances of the hydraulic pipelines system are distinctly improved by the optimization procedure, such as, the maximum displacement and velocity are reduced by 67.5% and 58.6%, respectively, and the maximum axial stress and strain are both decreased by 61.5% while the maximum shear stress and strain are reduced by 66.1%, and the failure probability of the first passage and cumulative fatigue damage are allayed by more than 99%, etc.

  4. Novel Oxygen Scavenger Systems for Functional Coatings

    Demicheva, Mariia

    2015-01-01

    This thesis work was aimed at developing a novel oxygen scavenging material suitable for being used in functional coatings. It provided an overview of existing oxygen scavenging systems and technologies, and defined the restriction in using them for food applications. The major objective of this study was creating, optimizing and testing oxygen scavenging substances based on polybutadiene. The study was conducted in October 2014 – January 2015 at Evonik Industries AG situated in Hanau, German...

  5. Pneumatic Capsule Pipeline

    ECT Team, Purdue

    2007-01-01

    Pneumatic capsule pipeline (PCP) uses wheeled capsules (vehicles) to carry cargoes through a pipeline filled with air. Modern large diameter PCP systems utilize through flow booster pumps, also known as jet pump injectors. These create the pressure differentials required to propel multiple capsules through a pipeline, while allowing both terminals at atmospheric pressure. This is done by placing a booster pump midway along the pipeline, and designing it in such a way that capsules can bypass ...

  6. Reliability and risk analysis and evaluation of a port oil pipeline transportation system in variable operation conditions

    Soszynska, Joanna [Gdynia Maritime University, Gdynia (Poland)

    2009-07-01

    In the paper the semi-Markov model is applied to describe the port oil pipeline transportation system operation processes and its selected parameters are determined. Multi-state systems are considered and their reliability and risk are found. Next, the joint model of the systems' operation process and the systems' multi-state reliability is applied to the reliability and risk evaluation of the port oil pipeline transportation system. (author)

  7. Ecoulements diphasiques instables dans les systèmes pipeline/riser Unsteady Two-Phase Flows in Pipeline/Riser Systems

    Fabre J.

    2006-11-01

    Full Text Available Les instabilités hydrodynamiques de l'écoulement dans les systèmes pipeline/riser ont été étudiées sur une boucle d'essais en tubes transparents de diamètre intérieur 0,053 m, longueur 25 m pour la partie pipeline et 13,5 m pour la partie riser. Les expériences effectuées sur de l'eau et de l'air, à différentes pentes du pipeline et pour plusieurs valeurs du débit d'entrée, ont permis l'observation d'instabilités à grande échelle à faible débit de liquide et de gaz. Les cartes de configuration d'écoulement ont été établies pour trois pentes différentes du pipeline. Le modèle numérique développé à partir de ces données résout les équations locales instantanées de bilan de masse et de quantité de mouvement de ces écoulements par la méthode des caractéristiques. L'évolution des pressions, fraction de vide, débit de gaz et de liquide au cours du temps, prévue par le modèle, est généralement en bon accord avec les données expérimentales. Hydrodynamic instabilities of flow in pipeline/riser systems were studied on a test loop made of transparent tubes with an ID of 0. 053 m and 25 m long for the pipeline part and 13. 5 m long for the riser. Experiments performed with water and air, with different slopes of the pipeline and with several inlet flow rates, reveal large-scale instabilities at low liquid and gas flow rates. Flow configuration maps were compiled for three different pipeline slopes. The numerical model developed from these data solves instantaneous local equations for the mass balance and amount of movement of such flows by the method of characteristics. Variations in pressures, in the void fraction and in gas and liquid flow in the time forecast by the model are generally in good agreement with experimental data.

  8. A case study in flow assurance of a pipeline-riser system using OLGA

    Nemoto, Rafael Horschutz; Balino, Jorge Luis [Nucleo de Dinamica e Fluidos. Dept. de Engenharia Mecanica. Universidade de Sao Paulo (EP/USP), SP (Brazil)], e-mails: rafael.nemoto@usp.br, jlbalino@usp.br; Tanaka, Rafael Loureiro; Godinho, Carlos Alberto [Prysmian Cables and Systems, Cariacica, ES (Brazil)], e-mails: rafael.tanaka@prysmian.com, carlos.godinho@prysmian.com

    2010-07-01

    In this paper, a case study in flow assurance is performed considering an offshore operating system, using the software OLGA. As operating system we consider a pipeline-riser geometry with typical dimensions of offshore oil production systems, and a three-phase flow of oil, gas and water. The model developed in OLGA considers the composition and dimensions of the tubes, heat transfer parameters, process equipment and fluid sources. The fluids properties are calculated using the software PVTsim. Simulations are ran in order to determine the pipeline inner diameter and insulation required to satisfy pressure and temperature requirements. It is also possible to simulate the transient behavior of the system, which allows to evaluate if production instabilities are present. In case instabilities exist, two mitigation alternatives are evaluated: closure of a choke valve before the separator and gas lift. Considering a possible production shutdown, the tubes insulation is calculated in order to avoid hydrate formation. (author)

  9. Leakage location system for oil pipeline on basis of stress wave detection

    Bangfeng WANG; Renwen CHEN

    2008-01-01

    An online monitoring system was developed for rapidly determining the exact location of the holing position in an oil pipeline by monitoring and analyzing the characteristics of the strain wave caused by the hole. The system has a master-slaver computer structure based on a remote wireless network. The master system takes charge of managing and controlling the whole system, identifying the holing stress wave, and calculating the holing position. The slaver system is responsible for sampling the strain wave signal from the pipeline. The characteristics of the strain wave signal are extracted by a Hilbert-Huang trans-form based on a signal processing approach. The exact holing position can be obtained by a time delay locating method with stress wave characteristics. The experimental results of the in-service pipeline show that the average locating error of the system is less than 10 m, the accuracy ratio for the holing alarm is more than 90%, and the time that the system takes to respond to the leakage is less than 10 s.

  10. FBG Temperature and Pressure Sensing System for Hot Water Pipeline of Petrochemical Factory

    Guo-Hui Lü; Shao-Hua Shang; Xu Jiang; Jin-Ping Ou; Chao Yang; Chuan-Di Li; Wei Xu

    2008-01-01

    A spatial and wavelength division multi-plexing fiber Bragg grating (FBG) sensing system is reported for monitoring the temperature and the pressure (T-P) of hot water pipeline in petrochemical factory. The FBG sensing system has 72 channels independently, and it provides the capability to monitor large number sensors at same time. A resolution of 0.1 ℃ and 0.01 MPa with a measurement bandwidth of 150 Hz has been achieved.

  11. PageRank Pipeline Benchmark: Proposal for a Holistic System Benchmark for Big-Data Platforms

    Dreher, Patrick; Byun, Chansup; Hill, Chris; Gadepally, Vijay; Kuszmaul, Bradley; Kepner, Jeremy

    2016-01-01

    The rise of big data systems has created a need for benchmarks to measure and compare the capabilities of these systems. Big data benchmarks present unique scalability challenges. The supercomputing community has wrestled with these challenges for decades and developed methodologies for creating rigorous scalable benchmarks (e.g., HPC Challenge). The proposed PageRank pipeline benchmark employs supercomputing benchmarking methodologies to create a scalable benchmark that is reflective of many...

  12. The development of pipeline integrity management in the world and practice in China

    Shaohua, Dong; Qing, Wang; Feifan [China National Petroleum Corporation (CNPC), Beijing (China)

    2009-07-01

    The paper analyzed the pipeline integrity management latest development, and the relationship among HSE management, pipeline integrity management (PIM) and asset integrity management (AIM). CNPC is a pioneer of China industry on implementation of pipeline integrity management by using latest developed technologies such as in-line inspection, GIS, Risk assessment and advanced repair technologies, and it is typical model of PIM in China pipeline who supply the gas to whole Beijing city. With smart pigging inspection and implementation of GIS and EAM(enterprise assets management) system on two thousand kilometers of Shaanxi-Beijing gas pipeline BHGC is able to manage pipeline integrity in five areas which include pipe materials safety, nature and geotechnical hazards management, coating and corrosion protection, stationing and associated facilities maintenance, and underground gas storage integrity. This paper presents latest achievement of BHGC in their pipeline integrity programs. (author)

  13. Overlay metallic-cermet alloy coating systems

    Gedwill, M. A.; Levine, S. R.; Glasgow, T. K. (Inventor)

    1984-01-01

    A substrate, such as a turbine blade, vane, or the like, which is subjected to high temperature use is coated with a base coating of an oxide dispersed, metallic alloy (cermet). A top coating of an oxidation, hot corrosion, erosion resistant alloy of nickel, cobalt, or iron is then deposited on the base coating. A heat treatment is used to improve the bonding. The base coating serves as an inhibitor to interdiffusion between the protective top coating and the substrate. Otherwise, the protective top coating would rapidly interact detrimentally with the substrate and degrade by spalling of the protective oxides formed on the outer surface at elevated temperatures.

  14. PageRank Pipeline Benchmark: Proposal for a Holistic System Benchmark for Big-Data Platforms

    Dreher, Patrick; Hill, Chris; Gadepally, Vijay; Kuszmaul, Bradley; Kepner, Jeremy

    2016-01-01

    The rise of big data systems has created a need for benchmarks to measure and compare the capabilities of these systems. Big data benchmarks present unique scalability challenges. The supercomputing community has wrestled with these challenges for decades and developed methodologies for creating rigorous scalable benchmarks (e.g., HPC Challenge). The proposed PageRank pipeline benchmark employs supercomputing benchmarking methodologies to create a scalable benchmark that is reflective of many real-world big data processing systems. The PageRank pipeline benchmark builds on existing prior scalable benchmarks (Graph500, Sort, and PageRank) to create a holistic benchmark with multiple integrated kernels that can be run together or independently. Each kernel is well defined mathematically and can be implemented in any programming environment. The linear algebraic nature of PageRank makes it well suited to being implemented using the GraphBLAS standard. The computations are simple enough that performance predictio...

  15. SPADOCK: Adaptive Pipeline Technology for Web System using WebSocket

    Aries RICHI

    2013-01-01

    Full Text Available As information technology grows to the era of IoT(Internet of Things and cloud computing, the performance ofweb application and web service which acts as the informationgateway becomes an issue. Horizontal quality of serviceimprovement through system performance escalation becomesan issue pursued by engineers and scientists, giving birth toBigPipe pipeline technology which was developed by Facebook.We make SPADOCK, an adaptive pipeline system which is builtunder distributed system architecture with the utilization ofHTML5 WebSocket, then measure its performance. Parametersused for the measurement includes latency, workload, andbandwidth. The result shows that SPADOCK could reduceserving latency by 68.28% compared with the conventional web,and it is 20.63% faster than BigPipe.

  16. Reliability, risk and availability analysis and evaluation of a port oil pipeline transportation system in constant operation conditions

    Kolowrocki, Krzysztof [Gdynia Maritime University, Gdynia (Poland)

    2009-07-01

    In the paper the multi-state approach to the analysis and evaluation of systems' reliability, risk and availability is practically applied. Theoretical definitions and results are illustrated by the example of their application in the reliability, risk and availability evaluation of an oil pipeline transportation system. The pipeline transportation system is considered in the constant in time operation conditions. The system reliability structure and its components reliability functions are not changing in constant operation conditions. The system reliability structure is fixed with a high accuracy. Whereas, the input reliability characteristics of the pipeline components are not sufficiently exact because of the lack of statistical data necessary for their estimation. The results may be considered as an illustration of the proposed methods possibilities of applications in pipeline systems reliability analysis. (author)

  17. Magnetron co-sputtering system for coating ICF targets

    Fabrication of Inertial Confinement Fusion (ICF) targets requires deposition of various types of coatings on microspheres. The mechanical strength, and surface finish of the coatings are of concern in ICF experiments. The tensile strength of coatings can be controlled through grain refinement, selective doping and alloy formation. We have constructed a magnetron co-sputtering system to produce variable density profile coatings with high tensile strength on microspheres

  18. Propriedades Mecânicas de Epóxis Utilizadas no Recobrimento Interno de Oleodutos e Gasodutos Mechanical Properties of Epoxy for Internal Coatings of Pipelines

    Marysilvia Ferreira

    2002-01-01

    Full Text Available Propriedades mecânicas de recobrimentos a base de epóxi para aplicação in situ em dutos de transporte na indústria petrolífera foram avaliadas. Os recobrimentos foram aplicados sobre substratos de aço carbono submetidos a dois diferentes padrões de tratamento superficial (ST3 e SA2½ e avaliou-se a influência do mesmo em propriedades tais como adesão, impacto, dureza e desgaste do material. Observou-se que a falha de adesão ocorre por diferentes mecanismos dependendo do material do recobrimento e da preparação da superfície. Desgaste ocorre basicamente por mecanismo abrasivo embora se tenha observado desgaste adesivo significativo em alguns casos, dependendo do material e do padrão de tratamento da superfície. Resultados de microdureza indicaram, como esperado, ser esta uma propriedade inerente ao material, não sendo afetada pelo padrão de limpeza da superfícieMechanical properties of epoxy based coating materials suitable for in-situ internal application in gas/oil pipelines were studied. Coatings were applied on carbon steel substrates submitted to two different surface preparation procedures (ST3 and SA2½ and the effect from surface treatment on coating adhesion, impact, hardness and wear was evaluated. It was found that adhesion failure occurs through distinct mechanisms depending on coating material and surface preparation. Wear occurs mostly by abrasive mechanism, although adhesive wear was found to be significant in some cases also depending on material and surface. Microhardness, as expected, was found to be a coating property not unaffected by surface treatment.

  19. Configuring an open pipeline fulfilment system - a simulation study in an automotive context

    Brabazon, Philip G.; Woodcock, Andrew; MacCarthy, Bart L.

    2008-01-01

    Automotive producers are adopting multi-modal fulfillment models in which customers can be fulfilled by products from stock, by allocating as yet unmade products that are in the planning pipeline, or by building a product to order. This study explores how fulfillment is sensitive to several parameters of the system and how they interact with different methods for sequencing products into the production plan.

  20. Pipeline rehabilitation planning

    Palmer-Jones, Roland; Hopkins, Phil; Eyre, David [PENSPEN (United Kingdom)

    2005-07-01

    An operator faced with an onshore pipeline that has extensive damage must consider the need for rehabilitation, the sort of rehabilitation to be used, and the rehabilitation schedule. This paper will consider pipeline rehabilitation based on the authors' experiences from recent projects, and recommend a simple strategy for planning pipeline rehabilitation. It will also consider rehabilitation options: external re-coating; internal lining; internal painting; programmed repairs. The main focus will be external re-coating. Consideration will be given to rehabilitation coating types, including tape wraps, epoxy, and polyurethane. Finally it will discuss different options for scheduling the rehabilitation of corrosion damage including: the statistical comparison of signals from inspection pigs; statistical comparison of selected measurements from inspection pigs and other inspections; the use of corrosion rates estimated for the mechanisms and conditions; expert judgement. (author)

  1. Brazil pipelines system crossings; Sistema de dutovias do Brasil - interferencias nos transportes terrestres

    David, Roberto; Barbosa, Sylvio [Agencia Nacional de Transportes Terrestres (ANTT), Brasilia, DF (Brazil); Abib, Osvaldo

    2005-07-01

    The Law 10.233/2001 of 2001 designated the National Agency of Land Transportation (ANTT) as responsible for the gathering and organizing of information about Brazilian pipeline infrastructure. In order to fulfill this legal requirement, ANTT is developing the Brazilian Pipeline Catalog System (SISDUT) and is creating a geo referenced database. The priority is to collect information on the critical points, those where the pipelines intersect with road and rail networks. The SISDUT geo processing catalog will store all information required to manage and track critical points, such as: technical construction standards, as built plans, adjustments terms with roads and rail networks, special usage grants, inspection procedures, pictures taken on local visits, ANTT deliberations, usage of soil, etc. The system was designed using the Object Oriented Analysis and Design paradigms, modeled in the Unified Modeling Language. The database will be populated by ANTT and with data imported from partners. The queries for literal and geographic data will be available on the Internet using Web mapping. SISDUT system will allow spatial cross referencing among its many entities, allowing complex analysis and tracking of events in the critical points. (author)

  2. Method for installing submarine pipelines using a marine railway system

    A method of installing a cold water conduit for use with Ocean Thermal Energy Conversion (OTEC), fossil or nuclear power plants comprises installing a marine railway system on the ocean floor and subsequently using the railway system as an aid to the installation of the cold water conduit and as a support structure for the conduit

  3. Statistical analysis on the signals monitoring multiphase flow patterns in pipeline-riser system

    Ye, Jing; Guo, Liejin

    2013-07-01

    The signals monitoring petroleum transmission pipeline in offshore oil industry usually contain abundant information about the multiphase flow on flow assurance which includes the avoidance of most undesirable flow pattern. Therefore, extracting reliable features form these signals to analyze is an alternative way to examine the potential risks to oil platform. This paper is focused on characterizing multiphase flow patterns in pipeline-riser system that is often appeared in offshore oil industry and finding an objective criterion to describe the transition of flow patterns. Statistical analysis on pressure signal at the riser top is proposed, instead of normal prediction method based on inlet and outlet flow conditions which could not be easily determined during most situations. Besides, machine learning method (least square supported vector machine) is also performed to classify automatically the different flow patterns. The experiment results from a small-scale loop show that the proposed method is effective for analyzing the multiphase flow pattern.

  4. Gamma transmission system for detection of scale in oil exploration pipelines

    Oliveira, Davi F., E-mail: davi@lin.ufrj.br [Nuclear Instrumentation Laboratory, Federal University of Rio de Janeiro (Brazil); Physics Institute, State University of Rio de Janeiro (Brazil); Nascimento, Joseilson R. [Nuclear Instrumentation Laboratory, Federal University of Rio de Janeiro (Brazil); Marinho, Carla A. [Leopoldo A. Miguez de Melo Research Center, CENPES/PETROBRAS (Brazil); Lopes, Ricardo T. [Nuclear Instrumentation Laboratory, Federal University of Rio de Janeiro (Brazil)

    2015-06-01

    The goal of this study is to detect and quantify the thickness of the scale layer inside the service pipelines. For this purpose, a system composed of a {sup 137}Cs source and a NaI(Tl) scintillation detector was developed. The source and the detector were positioned in geometry to make transmission measurements. A computational routine was developed to generate simulated data, which were later compared with the experimental ones, in order to calculate the thickness of scale layer. The results of the validation tests show similar values to the real ones. It was therefore possible to conclude that the procedure is efficient for the detection and quantification of materials inside pipelines, and that the system is advantageous for its application in the field, especially with respect to radioprotection. - Highlights: • Detection of scale in oil and gas pipelines. • Validation of a mathematical procedure to generate transmitted radiation profiles. • Quantification of the scale layer thickness by gamma-ray transmission.

  5. GIS (Geographic Information Systems) based automatic tool for selection of gas pipeline corridors

    Matos, Denise F.; Menezes, Paulo Cesar P.; Paz, Luciana R.L.; Garcia, Katia C.; Cruz, Cristiane B.; Pires, Silvia H.M.; Damazio, Jorge M.; Medeiros, Alexandre M.

    2009-07-01

    This paper describes a methodology developed to build total accumulated surfaces in order to better select gas pipelines corridor alternatives. The methodology is based on the minimization of negative impacts and the use of Geographic Information Systems (GIS), allowing an automatic method of construction, evaluation and selection of alternatives, that will contribute to the decision making process. It is important to emphasize that this paper follows the assumptions presented on the research reports of a project sponsored by the Ministry of Mines and Energy (MME) and elaborated at the Electric Power Research Center (CEPEL), called 'Development of a Geographic Information System to Oil and Gas Sectors in Brazil', and also the studies d GTW Project (Gas to Wire). Gas pipelines, as for their linear characteristic, may cross a variety of habitats and settlements, increasing the complexity of their environmental management. Considering this reality, this paper presents a methodology that takes into account different environmental criteria (layers), according to the area impacted. From the synthesis of the criteria it is presented the total accumulated surface. It is showed an example of a hypothetical gas pipeline connection between two points using the total accumulated surface. To select the 'impact scores' of the features, the gas pipeline was considered as a linear feature, but the result is a region, formed by pixels, each pixel with an accumulated impact score lower than some arbitrary measure. This region is called 'corridor', and it is the final result obtained using the proposed methodology. (author)

  6. The design of major systems and equipment for an HTGR powered thermo-chemical pipeline

    The use of the High Temperature Gas Reactor for supplying heat to process industries has been studied. It has been estimated that for distances between the HTGR and the process industries beyond which sensible heat energy transport is impracticable (30 Km), that the thermo-chemical pipeline is superior since the HTGR-TCP system permits at least 65% of the reactor heat to be delivered to industry and in consequence, the energy cost to industry is less from this system than from the competing energy distribution systems despite greater TCP capital costs. (author)

  7. Degradation and Failure Characteristics of NPP Containment Protective Coating Systems

    Sindelar, R.L.

    2001-02-22

    A research program to investigate the performance and potential for debris formation of Service Level I coating systems used in nuclear power plant containment is being performed at the Savannah River Technology Center. The research activities are aligned to address phenomena important to cause coating disbondment as identified by the Industry Coatings Expert Panel. The period of interest for performance covers the time from application of the coating through 40 years of service, followed by a medium-to-large break loss-of-coolant accident scenario, which is a design basis accident (DBA) scenario. The interactive program elements are described in this report and the application of these elements to evaluate the performance of the specific coating system of Phenoline 305 epoxy-phenolic topcoat over Carbozinc 11 primer on a steel substrate. This system is one of the predominant coating systems present on steel substrates in NPP containment.

  8. Development of a Neural Fuzzy System for Advanced Prediction of Gas Hydrate Formation Rate in Pipeline

    Mohammad Javad JALALNEZHAD

    2014-02-01

    Full Text Available With the development of the natural gas industry in the 20th century, the production, processing and distribution of natural gas under high-pressure conditions has become necessary. Under these conditions, it was found that the production and transmission pipelines were becoming blocked with what looked like to be ice. Hammerschmidt determined that hydrates were the cause of plugged natural gas pipelines. Gas hydrates and difficulties related to their formation in production and transmission pipelines and equipment, are the major concerns of the gas industry. The main objective of this study was to present a novel approach to access more accurate hydrate formation rate predicting models based on a combination of flow loop experimental data with learning power of adaptive neural-fuzzy inference systems and more than 900 data points of the , , , and i-  hydrate formation rate. Using this data set different predictive models were developed. It was found that such models can be used as powerful tools, with total errors less than 6 % for the developed models, in predicting hydrate formation rate in these cases.

  9. Pipelining the Fast Multipole Method over a Runtime System

    Agullo, Emmanuel; Coulaud, Olivier; Darve, Eric; Messner, Matthias; Toru, Takahashi

    2012-01-01

    Fast Multipole Methods (FMM) are a fundamental operation for the simulation of many physical problems. The high performance design of such methods usually requires to carefully tune the algorithm for both the targeted physics and the hardware. In this paper, we propose a new approach that achieves high performance across architectures. Our method consists of expressing the FMM algorithm as a task flow and employing a state-of-the-art runtime system, StarPU, in order to process the tasks on the different processing units. We carefully design the task flow, the mathematical operators, their Central Processing Unit (CPU) and Graphics Processing Unit (GPU) implementations, as well as scheduling schemes. We compute potentials and forces of 200 million particles in 48.7 seconds on a homogeneous 160 cores SGI Altix UV 100 and of 38 million particles in 13.34 seconds on a heterogeneous 12 cores Intel Nehalem processor enhanced with 3 Nvidia M2090 Fermi GPUs.

  10. Towards photometry pipeline of the Indonesian space surveillance system

    Priyatikanto, R; Rachman, A; Dani, T

    2015-01-01

    Optical observation through sub-meter telescope equipped with CCD camera becomes alternative method for increasing orbital debris detection and surveillance. This observational mode is expected to eye medium-sized objects in higher orbits (e.g. MEO, GTO, GSO \\& GEO), beyond the reach of usual radar system. However, such observation of fast-moving objects demands special treatment and analysis technique. In this study, we performed photometric analysis of the satellite track images photographed using rehabilitated Schmidt Bima Sakti telescope in Bosscha Observatory. The Hough transformation was implemented to automatically detect linear streak from the images. From this analysis and comparison to USSPACECOM catalog, two satellites were identified and associated with inactive Thuraya-3 satellite and Satcom-3 debris which are located at geostationary orbit. Further aperture photometry analysis revealed the periodicity of tumbling Satcom-3 debris. In the near future, it is not impossible to apply similar sche...

  11. Internal cement coating in pipelines - chances and limitations for in-line-inspection; Zementausgekleidete Rohre - Moeglichkeiten und Grenzen fuer eine intelligente Molchung

    Bogumil, H.G.; Westeinde, P. van' t [BEB Erdgas und Erdoel GmbH, Hannover (Germany); Bukman, F.; Schmidt, R. [3P Services GmbH und Co. KG, Lingen (Germany)

    2000-02-01

    For the inspection of pipelines for internal and external corrosion, the 'in-line inspection', using 'intelligent pigs', has become state-of-the-art as far as oil and gas transport pipelines are concerned. Since recent years, also small diameter tools - as small as 4'' - have become available. In one of its oil fields, where wet oil contains H{sub 2}S, internal cement coating is applied to protect the steel pipe from internal corrosion. An in-line-inspection was considered necessary, however, the internal coating, having a thickness of 8 mm, was in contrary to the general requirement of intelligent pigs to have direct contact to the internal pipe (=steel) surface. Pull tests that were carried out in cement coated pipes using the PiCoLo equipment of 3P Services (based on the magnetic flux leakage/MFL principle) indicated that reasonable results could be achieved, however, at reduced resolution. (orig.) [German] Fuer die Inspektion von Rohrleitungen auf innere und aeussere Korrosion werden intelligente Molche eingesetzt. Diese Untersuchungsmethode wird bei Oel- und Gastransportleitungen eingesetzt. In den letzten Jahren ist es auch moeglich, kleinere Durchmesser - wie z.B. DN 100 - zu untersuchen. An einem der Oelfelder sind zementausgekleidete Rohre fuer den Transport eingesetzt. Die Zementinnenauskleidung soll die Stahlrohre vor Innenkorrosion schuetzen. Eine innere Inspektion wurde auch von Sachverstaendigen als moegliche Alternative fuer die 5jaehrige Wasserdruckpruefung mit dem 1,3-fachen Nenndruck nach dem entsprechenden Regelwerk gesehen. Die Wasserdruckpruefung liefert nicht ausreichende Daten ueber den Gesamtzustand des Leitungssystems und dient nur als Momentaufnahme. Die Zementinnenauskleidung hat eine Dicke von ca. 8 mm. Das stand im Gegensatz zu den Anforderungen, die an ein herkoemmliches, intelligentes Molchsystem gestellt werden. Herkoemmliche Molchsysteme haben direkten Kontakt zum entsprechenden Stahlrohr. Es wurden

  12. Finite element modeling of engineered thin film/coating systems

    Finite element modeling is becoming an increasingly important tool used in the design methodology and in the analysis of engineered functional thin film/coating systems. In contrast with many analytical modeling methods, modem finite element analysis can readily model non-linear static and transient thermo-mechanical behavior of engineered coating systems. Non-linear finite element analysis can be applied to multi-layered coating systems to predict the stresses and deformations generated during the processing of the coating system and under operating conditions. For example thermo-mechanical finite element analysis can be used to determine the composition and layer geometry of a coating system such that the stresses generated under operating conditions are minimized. In this paper we demonstrate the use of non-linear finite element analysis in the following situations: a) the prediction of contact stresses and film surface crack propagation within the coating system developed during the normal indentation of a hard wear-resistant coating on a soft substrate, and b) the determination of stresses generated in a multi-layered non-wetting, wear-resistant and oxidation resistant glass molding coating system during repeated thermal shot cycling. (author)

  13. Environmental management systems methodology for pipeline systems implementation; Metodologia para implantacao de sistemas de gestao ambiental na implementacao de empreendimentos dutoviarios

    Paz, Claudio Marques [JPTE Engenharia Ltda., Barueri, SP (Brazil); Pinaud, Rodrigo Zambrotti [AJR Engenharia - Seguranca, Meio Ambiente e Saude Ltda. (Brazil)

    2004-07-01

    The implementation of oil and gas pipeline systems are commonly made in a own or shared with power transmission, rail and crossroads right-of-way. Pipelines are a 'linear' structure, such as power transmission lines, which are established on landscapes with several conformations (accent slopes, swamp and rocky soils), including sites with high environmental sensibility. The services involved on pipeline implementation are very dynamic, involving several number of employees, vehicles, heavy equipment of excavation and welding that results in a high potential to cause environmental and social impacts. This article, based on the Brazilian and foreign experience on pipeline construction, proposes a methodology to prevent and minimize social and environmental impacts during the construction stage of a pipeline system. (author)

  14. Field experience with a novel pipe protection and monitoring system for large offshore pipeline construction projects

    Magerstaedt, Michael; Blitz, Gunther [ROSEN Swiss AG, Stans (Switzerland); Sabido, Carlos E. [ROSEN Technology and Research Center, Lingen (Germany)

    2012-07-01

    For pipe joints stored during large-scale offshore pipeline construction projects, corrosion protection as well as protection from physical damage of pipelines is very important. Integrity Management does not just start with the operation of a pipeline. In the past, with the much lower risks and cost at stake in on shore constriction, this factor was often overlooked. Sometimes, newly laid pipelines failed upon hydrostatic testing or even during operation. Causes were corrosion or damage the pipe joints took before pipeline laying. For offshore projects, the cost and consequences associated with such failures are orders of magnitude higher and must be avoided by all means. Within six months from the conception of the idea, a system was developed and deployed that protected (and in part still protects) a large number of pipe joints used in a European offshore gas pipeline project more than 2000 km. The pipe joints were physically protected from corrosion, interior contamination, and condensation. At the same time, the system provided real-time monitoring of more than 100'000 pipe joints stored at 5 storage yards distributed over 3 countries with distances of more than 1200 km apart from each other. Every single joint was identified with its location and status at every time during the storage period. Any third-party interference was transmitted to a central control room in real time as well. Protection of the pipe joints was provided vs.: corrosion of pipe joint end cutbacks exposed to the maritime climate for up to 2 years; contamination of the pipe interior by: foreign material, dirt, water, ice, animals. Third party damage to the pipe joints; damage to the protection system or to the transmission network; fire; theft of pipe joints or other equipment. System features were: modular pipe caps that, protect the pipe interior, cover both inner and outer cutback, allow ventilation of the pipe interior, continuously monitor each pipe joint for third party damage

  15. Applicability of Pneumatic Capsule Pipeline System to Radioactive Waste Disposal Facility

    Various transport systems have been studied for the transportation of waste packages and buffer materials from the ground surface to the underground radioactive waste disposal facility, such as a lift (vertical shaft type) and a vehicle (inclined tunnel type)(1). This paper introduces pneumatic capsule pipeline system as a new method for the transportation. The system is designed to transport pneumatically waste packages and buffer materials between the surface and the underground as shown in Fig. 1. The system is also used to transport excavated debris, equipment and materials during construction. It is economical to utilize the system for air ventilation in addition to be used for transportation. The capsule moving in the shaft can be controlled at appropriate speed by adjusting the air pressure in the shaft. This paper discusses the applicability of the system to the geological disposal based on analytical simulation and experimental study

  16. SCADA System for the Modeling and Optimization of Oil Collecting Pipeline Network: A Case Study of Hassi Messaoud Oilfield

    M. Aouadj

    2015-07-01

    Full Text Available This study aims are data acquisition, control and online modeling of an oil collection pipeline network using a SCADA «Supervisory Control and Data Acquisition» system, allowing the optimization of this network in real time by creating more exact models of onsite facilities. Indeed, fast development of computing systems makes obsolete usage of old systems for which maintenance became more and more expensive and their performances don’t comply any more with modern company operations. SCADA system is a telemetry and control system adapted for particular requirements of an oilfield management. Thanks to its different functions, we take advantage of this system to solve production problems especially those related to oil collecting pipeline network. In fact this network is confronted to some problems, in particular pressure losses which has significant effect on the production. This problem can be taken under control by the awareness of pipeline network operation and all its process data (especially junctions in real time. This will allow online creation of representative and accurate computerized models for the oil collecting pipeline network including producing wells, collecting pipelines, manifolds and others facilities.

  17. A hydrostatic leak test for water pipeline by using distributed optical fiber vibration sensing system

    Wu, Huijuan; Sun, Zhenshi; Qian, Ya; Zhang, Tao; Rao, Yunjiang

    2015-07-01

    A hydrostatic leak test for water pipeline with a distributed optical fiber vibration sensing (DOVS) system based on the phase-sensitive OTDR technology is studied in this paper. By monitoring one end of a common communication optical fiber cable, which is laid in the inner wall of the pipe, we can detect and locate the water leakages easily. Different apertures under different pressures are tested and it shows that the DOVS has good responses when the aperture is equal or larger than 4 mm and the inner pressure reaches 0.2 Mpa for a steel pipe with DN 91cm×EN 2cm.

  18. Acoustic natural frequency analysis of tree-structure pipeline systems by personal computer

    Györi, I.; Joó, Gy.

    1986-02-01

    The paper gives the extension of the Schmidt-Kuhlmann method for reciprocating compressor pipeline systems having a tree-structure, consisting of receivers and pipes with an optional number of branchings. It gives a generalized algorithm which makes it possible to mechanize program constructing for the purpose of determining acoustic natural frequencies of complex structures, and it illustrates the use of personal computers—besides the actual numerical calculations—for automatic program-writing as well. The program developed is very useful in design practice for determining the effects caused by modification of the geometric dimensions, and it permits one to shift and avoid harmful acoustic resonances in preliminary planning.

  19. FPGA based, fast, pipeline, parameterized sorter implementation for first level trigger systems in HEP experiments

    Pozniak, Krzysztof T

    2004-01-01

    The paper describes a behavioral model of fast, pipeline sorter dedicated to electronic triggering applications in the experiments of high energy physics (HEP). The sorter was implemented in FPGA for the RPC Muon Detector of CMS experiment (LHC accelerator, CERN) and for Backing Calorimeter (BAC) in ZEUS experiment (HERA accelerator, DESY) . A general principle of the applied sorting algorithm was presented. The implementation results were debated in detail for chosen FPGA chips by ALTERA and XILINX manufactures. The realization costs have been calculated as function of system parameters.

  20. EST Pipeline System: Detailed and Automated EST Data Processing and Mining

    Hao Xu; Liang Zhang; Hong Yu; Yan Zhou; Ling He; Yuanzhong Zhu; Wei Huang; Lijun Fang; Lin Tao; Yuedong Zhu; Lin Cai; Huayong Xu

    2003-01-01

    Expressed sequence tags (ESTs) are widely used in gene survey research these years. The EST Pipeline System, software developed by Hangzhou Genomics Institute (HGI), can automatically analyze different scalar EST sequences by suitable methods. All the analysis reports, including those of vector masking, sequence assembly, gene annotation, Gene Ontology classification, and some other analyses,can be browsed and searched as well as downloaded in the Excel format from the web interface, saving research efforts from routine data processing for biological rules embedded in the data.

  1. Water hammer in the pump-rising pipeline system with an air chamber

    KIM Sang-Gyun; LEE Kye-Bock; KIM Kyung-Yup

    2014-01-01

    Water hammer following the tripping of pumps can lead to overpressure and negative pressure. Reduction in overpressure and negative pressure may be necessary to avoid failure, to improve the efficiency of operation and to avoid fatigue of system components. The field tests on the water hammer have been conducted on the pump rising pipeline system with an air chamber. The hydraulic transient was simulated using the method of characteristics. Minimizing the least squares problem representing the difference between the measured and predicted transient response in the system performs the calibration of the simulation program. Among the input variables used in the water hammer analysis, the polytropic exponent, the discharge coefficient and the wave speed were calibrated. The computer program developed in this study will be useful in designing the optimum parameters of an air chamber for the real pump pipeline system. The correct selection of air chamber size and the effect of the inner diameter of the orifice to minimize water hammer have been investigated by both field measurements and numerical modeling.

  2. Patterns identification in supervisory systems of nuclear reactors installations and gas pipelines systems using self-organizing maps

    Self-Organizing Maps, SOM, of Kohonen were studied, implemented and tested with the aim of developing, for the energy branch, an effective tool especially for transient identification in nuclear reactors and for gas pipelines networks logistic supervision, by classifying operations and identifying transients or abnormalities. The digital system for the test was developed in Java platform, for the portability and scalability, and for belonging to free development platforms. The system, executed in personal computers, showed satisfactory results to aid in decision taking, by classifying IRIS (International Reactor Innovative and Secure) reactor operation conditions (data from simulator) and by classifying Southeast (owner: TRANSPETRO - Brazil) gas pipeline network. Various adaptations were needed for such business, as new topologies for the output layer of artificial neural network and particular preparation for the input data. (author)

  3. Evaluation results on the effectiveness of the corrosion protection system for underground pipelines, using the DC-voltage gradient technique

    Ribeiro, Antonio Carlos [Petroquimica Uniao S.A., Santo Andre, SP (Brazil)

    2003-07-01

    A pipeline of diameter 6'' with 17.694 km of extension was evaluated how much to the integrity of its external covering and the effectiveness of the system of cathodic protection, using the method DC-Voltage Gradient. The Cathodic Protection in this pipeline is made by seven rectifiers. The gotten data indicate that the potential pipe-ground registered in some check points to the long one of the pipeline is extremely negative, what has led to a super protection of the pipeline for the CP. This if explains for the great proximity between the anodes and the pipeline. For km had been identified 917 failures with a mean density of 50,1 per Km. Beyond the analysis of the data, this work includes conclusions and recommendations detailed for the repairs of the covering of the pipeline and for improvement of the effectiveness of the CP. One sends regards to a combination of repairs in the covering and reevaluation of the CP, in way to improve the protection level and to assure the reduction of the risk of external corrosion. (author)

  4. Standardization process aligned to integrated management system: the case of TRANSPETRO's Oil Pipelines and Terminals Unit

    Almeida, Maria Fatima Ludovico de [Pontificia Universidade Catolica do Rio de Janeiro (PUC-Rio/ITUC), Rio de Janeiro, RJ (Brazil). Instituto Tecnologico; Labrunie, Charles; Araujo, Dario Doria de [TRANSPETRO - PETROBRAS Transporte S.A., Rio de Janeiro, RJ (Brazil). Diretoria de Terminais e Oleodutos

    2009-07-01

    This paper presents the implementation by PETROBRAS Transporte S.A. - TRANSPETRO of its Oil Pipelines and Terminals Standardization Program (PRONOT) within the scope of the 'Integrated Management System' (IMS). This program, launched in 2006 in the regions where the company operates, aims at standardizing all of its oil pipeline and terminal operations. Its implementation was planned in two phases: the first, already successfully concluded, refers to pipeline operations, industrial maintenance and right-of-way activities management; and the second, initiated in 2009, encompasses cross-sectional activities including health, safety and environment (HSE); training and development of oil pipeline workforce; communication with stake holders; oil pipeline integrity; and engineering project requirements. The documental structures of TRANSPETRO IMS and PRONOT are described and represented graphically to emphasize the intentional alignment of the standardization process carried out by the Oil Pipelines and Terminals Unit to the corporate IMS, based upon national and international literature review and through practical research focusing on the best international practices. (author)

  5. A Proposed Scalable Design and Simulation of Wireless Sensor Network-Based Long-Distance Water Pipeline Leakage Monitoring System

    Abdulaziz S. Almazyad

    2014-02-01

    Full Text Available Anomalies such as leakage and bursts in water pipelines have severe consequences for the environment and the economy. To ensure the reliability of water pipelines, they must be monitored effectively. Wireless Sensor Networks (WSNs have emerged as an effective technology for monitoring critical infrastructure such as water, oil and gas pipelines. In this paper, we present a scalable design and simulation of a water pipeline leakage monitoring system using Radio Frequency IDentification (RFID and WSN technology. The proposed design targets long-distance aboveground water pipelines that have special considerations for maintenance, energy consumption and cost. The design is based on deploying a group of mobile wireless sensor nodes inside the pipeline and allowing them to work cooperatively according to a prescheduled order. Under this mechanism, only one node is active at a time, while the other nodes are sleeping. The node whose turn is next wakes up according to one of three wakeup techniques: location-based, time-based and interrupt-driven. In this paper, mathematical models are derived for each technique to estimate the corresponding energy consumption and memory size requirements. The proposed equations are analyzed and the results are validated using simulation.

  6. Natural gas markets and the creation of an export gas pipeline system in Eastern Russia

    The world natural gas markets are analysed, with a special focus on the countries of Northeast Asia (NEA). The natural gas demands of China, Japan and South Korea, until the year 2020, is projected, considering a possible share of Russian gas. The resource potential of natural gas from the Siberian platform and the Sakhalin shelf is given as a sound basis for fuelling Russia's position in the natural gas market of NEA countries. Development of the powerful gas industry in the East of Russia faces some particular conditions that can decrease the effectiveness of investments. The eastern geopolitical direction is very important for Russia and the necessity to create a favourable political and economic environment for oil and gas export is of prime interest, as stressed in Energy Strategy for Russia till the Year 2020. In this context, the long-term market for natural gas in East Siberia and the Far East of Russia is investigated. Possible routes of natural gas export from Russia to NEA countries include three main directions: to the west of China with connection to the 'West-East gas pipeline', a route through and/or round Mongolia and, finally, a route along the Trans-Siberian or Baikal-Amur railroads to Russian ports in the Far East. As a result of complex studies, three stages in the creation of the unified gas pipeline system are suggested. Evaluation of the investments required for construction of such a natural gas pipeline system, expected gas volumes and prices on the markets show its high economic efficiency. In conclusion, the most valuable ideas are stressed. (author)

  7. Process engineering of ceramic composite coatings for fuel cell systems

    Li, G.; Kim, H.; Chen, M.; Yang, Q.; Troczynski, T. [British Columbia Univ., Vancouver, BC (Canada). Dept. of Metals and Materials Engineering

    2003-07-01

    Researchers at UBCeram at the Department of Metals and Materials Engineering at the University of British Columbia have developed a technology to chemically bond composite sol-gel (CB-CSG) coating onto metallic surfaces of complex or concave shapes. The process has been optimized for electrically resistive coatings and corrosion-resistant coatings. The CSG is sprayed onto metallic surfaces and is heat-treated at 300 degrees C to partially dehydrate the hydroxides. The CSG film is then chemically bonded through reaction of active alumina with metal phosphates, such as aluminium phosphate. A new chromate-free process is being developed to address the issue of coatings porosity. The electrodeposition technique involves polymer particles mixed with suspended fine alumina particles which are co-deposited by electrophoretic means or by electrocoagulation. The composite e-coatings have excellent mechanical properties and are being considered as a protective coating for various components of fuel cell systems. 9 refs., 7 figs.

  8. Concept of an advanced hyperspectral remote sensing system for pipeline monitoring

    Keskin, Göksu; Teutsch, Caroline D.; Lenz, Andreas; Middelmann, Wolfgang

    2015-10-01

    Areas occupied by oil pipelines and storage facilities are prone to severe contamination due to leaks caused by natural forces, poor maintenance or third parties. These threats have to be detected as quickly as possible in order to prevent serious environmental damage. Periodical and emergency monitoring activities need to be carried out for successful disaster management and pollution minimization. Airborne remote sensing stands out as an appropriate choice to operate either in an emergency or periodically. Hydrocarbon Index (HI) and Hydrocarbon Detection Index (HDI) utilize the unique absorption features of hydrocarbon based materials at SWIR spectral region. These band ratio based methods require no a priori knowledge of the reference spectrum and can be calculated in real time. This work introduces a flexible airborne pipeline monitoring system based on the online quasi-operational hyperspectral remote sensing system developed at Fraunhofer IOSB, utilizing HI and HDI for oil leak detection on the data acquired by an SWIR imaging sensor. Robustness of HI and HDI compared to state of the art detection algorithms is evaluated in an experimental setup using a synthetic dataset, which was prepared in a systematic way to simulate linear mixtures of selected background and oil spectra consisting of gradually decreasing percentages of oil content. Real airborne measurements in Ettlingen, Germany are used to gather background data while the crude oil spectrum was measured with a field spectrometer. The results indicate that the system can be utilized for online and offline monitoring activities.

  9. Genetic algorithms for the optimization of pipeline systems for liquid distribution (2)

    This is the second of two articles presenting a Genetic Algorithm (GA) to obtain an optimal design, from an economical and operational point of view, of a pipeline system for the distribution of liquids, based on criteria such as complying with the laws of preservation of mass and energy, volume of flow requirements in the points of consumption where pressure is known, restriction in pressure value in those points of the system where it is unknown as well as in the velocity which must be under the erosion limit. In this article the traditional techniques for designing a GA in this type of problems are combined with some ideas that have not been applied to this field previously. The proposed GA allows for the sizing of liquid distribution systems that include pipelines, nodes for consumption and provision, tanks, pumping equipment, nozzles, control valves and accessories. The first article of this series (Galeano, 2003), presents the different formulations found in literature for the design of networks through optimization techniques and formulates mathematically, the optimization problem. In this article, the characteristics of the GA are specified and it is applied to solve the Alperovits and Shamir (1977) network and for a fireproof network, which allowed testing some of the characteristics of the model that are not found in the literature, such as the possibility of including pumping equipment, aspersion nozzles and accessories. In addition, the contribution of the components and sensitivity are analyzed in order to investigate some characteristics and parameters of the implemented GA

  10. Degradation and Failure Characteristics of NPP Containment Protective Coating Systems

    A research program to investigate the performance and potential for failure of Service Level I coating systems used in nuclear power plant containment is in progress. The research activities are aligned to address phenomena important to cause failure as identified by the industry coatings expert panel

  11. Degradation and Failure Characteristics of NPP Containment Protective Coating Systems

    Sindelar, R.L.

    2000-12-01

    A research program to investigate the performance and potential for failure of Service Level I coating systems used in nuclear power plant containment is in progress. The research activities are aligned to address phenomena important to cause failure as identified by the industry coatings expert panel.

  12. Multiscale Systems-Pharmacology Pipeline to Assess the Prophylactic Efficacy of NRTIs Against HIV-1.

    Duwal, S; Sunkara, V; von Kleist, M

    2016-07-01

    While HIV-1 continues to spread, the use of antivirals in preexposure prophylaxis (PrEP) has recently been suggested. Here we present a modular systems pharmacology modeling pipeline, predicting PrEP efficacy of nucleotide reverse transcriptase inhibitors (NRTIs) at the scale of reverse transcription, target-cell, and systemic infection and after repeated viral exposures, akin to clinical trials. We use this pipeline to benchmark the prophylactic efficacy of all currently approved NRTIs in wildtype and mutant viruses. By integrating pharmacokinetic models, we find that intracellular tenofovir-diphosphate builds up too slowly to halt infection when taken "on demand" and that lamivudine may substitute emtricitabine in PrEP combinations. Lastly, we delineate factors confounding clinical PrEP efficacy estimates and provide a method to overcome these. The presented framework is useful to screen and optimize PrEP candidates and strategies and to understand their clinical efficacy by integrating the diverse scales which determine PrEP efficacy. PMID:27439573

  13. Innovative nondestructive method determines fracture toughness of in-service pipelines

    Haggag, F.M.; Phillips, L.D. [Advanced Technology Corp., Oak Ridge, TN (United States)

    2004-07-01

    New inspection regulations and practices are now being used to ensure the safe and efficient operation of oil and gas pipelines. This paper provided details of a novel non-destructive stress-strain microprobe (SSM) system that used in situ automated ball indentation (ABI) technique to determine the fracture strength of in-service steel pipelines. ABI-measured key mechanical properties were used alongside in-line smart pigs and on-line ultrasound measurements to determine safe operating pressures of pipelines as well as to determine necessary rehabilitation options. ABI tests were based on progressive indentation with intermediate partial unloadings until the required maximum depth strain is reached. The ABI test provided the actual values of fracture strength properties for base metal, welds, and heat-affected zones in pipelines. This paper presented 2 case studies in which the SSM-ABI system was used: (1) a catastrophic failure that occurred in a natural gas plant following a leak of liquid natural gas into a gas pipeline; and (2) a fire that occurred as a result of a leak from a 356 mm diameter kerosene pipeline. In the first case study, the SSM system was used to measure the tensile and fracture toughness properties from multiple ABI tests on several pipeline pieces. The ABI-measured properties then provided the basis for a fitness-for-service assessment of the remaining pipeline sections at the plant. In the second study, 15 in situ ABI tests were conducted to measure tensile and fracture properties of an undocumented grade of carbon steel pipeline. Results of the tests showed that the pipeline was within pipeline specification codes. Coating failure was determined as the source of corrosion. It was concluded that the SSM-ABI tests provided pipeline operators in both cases with accurate, nondestructive ABI-measured fracture toughness values for deterministic pipeline integrity assessments. 10 refs., 1 tab., 5 figs.

  14. The performance of a high speed pipelined photomultiplier readout system in the Fermilab KTe V experiment

    The KTeV fixed target experiment at Fermilab is using an innovative scheme for reading out its 3100 channel CsI electromagnetic calorimeter. This pipelined readout system digitizes photomultiplier tube (PMT) signals over a 16-bit dynamic range with 8-bits of resolution at 53 MHz. The crucial element of the system is a custom Bi-CMOS integrated circuit which, in conjunction with an 8-bit Flash ADC, integrates and digitizes the PMT signal charge over each 18.9 nsec clock cycle (53 MHz) in a deadtimeless fashion.The digitizer circuit is local to the PMT base, and has an in-situ charge integration noise figure of 3 fC/sample. In this article, the readout system will be described and its performance including noise, cross-talk, linearity, stability, and reliability will be discussed

  15. Implementation of an integrity management program in a crude oil pipeline system

    Martinez, Maria; Tomasella, Marcelo [Oleoductos del Valle, General Roca (Argentina); Rossi, Juan; Pellicano, Adolfo [SINTEC S.A. , Mar del Plata, Buenos Aires (Argentina)

    2005-07-01

    The implementation of an Integrity Management Program (IMP) in a crude oil pipeline system is focused on the accomplishment of two primary corporative objectives: to increase safety operation margins and to optimize available resources. A proactive work philosophy ensures the safe and reliable operation of the pipeline in accordance with current legislation. The Integrity Management Program is accomplished by means of an interdisciplinary team that defines the strategic objectives that complement and are compatible with the corporative strategic business plan. The implementation of the program is based on the analysis of the risks due to external corrosion, third party damage, design and operations, and the definition of appropriate mitigation, inspection and monitoring actions, which will ensure long-term integrity of the assets. By means of a statistical propagation model of the external defects, reported by high-resolution magnetic inspection tool (MFL), together with the information provided by corrosion sensors, field repair interventions, close internal surveys and operation data, projected defect depth; remaining strength and failure probability distributions were obtained. From the analysis, feasible courses of action were established, including the inspection and repair plan, the internal inspection program and both corrosion monitoring and mitigation programs. (author)

  16. A New Software for Management, Scheduling, and Optimization for the Light Hydrocarbon Pipeline Network System of Daqing Oilfield

    Yongtu Liang

    2014-01-01

    Full Text Available This paper presents the new software which specifically developed based on Visual Studio 2010 for Daqing Oilfield China includes the most complex light hydrocarbon pipeline network system in Asia, has become a powerful auxiliary tool to manage field data, makes scheduling plans for batching operation, and optimizes pumping plans. Firstly, DMM for recording and managing field data is summarized. Then, the batch scheduling simulation module called SSM for the difficult batch-scheduling issues of the multiple-source pipeline network system is introduced. Finally, SOM, that is Scheduling Optimization Module, is indicated for solving the problem of the pumps being started up/shut-down frequently.

  17. Non-metallic composite repair systems for pipes and pipelines; Nicht-metallische Reparatursysteme fuer Rohre- und Rohrleitungen

    Rehberg, Thomas; Schad, Michael [DENSO GmbH, Leverkusen (Germany)

    2009-08-15

    ''Traditionally mechanical defects on pipelines, which were detected either by working on the line or as a result of intelligent pigging, will be repaired by replacing the defected areas with metallic pipe segments or welding of spherical caps. Since 15-20 years so called composite repair systems have been used in this field of pipeline business, too. Their backing fabrics consist of Carbon, Kevlar or Fiberglass fibres, which are reinforced with resins. This article reports about the experiences made with one of these state-of-the-art repair systems.'' (orig.)

  18. Coatings.

    Anderson, Dennis G.

    1989-01-01

    This review covers analytical techniques applicable to the examination of coatings, raw materials, and substrates upon which coatings are placed. Techniques include chemical and electrochemical methods, chromatography, spectroscopy, thermal analysis, microscopy, and miscellaneous techniques. (MVL)

  19. Development of EQ coating for a new TBC coating system in Ni-base superalloys

    Kawagishi, K.; Matsumoto, K.; Harada, H. [National Institute for Materials Science, Ibaraki (Japan); Sato, A. [National Institute for Materials Science, Ibaraki (Japan)]|[Ishikawajima-Harima Heavy Industries Co., Ltd., Tokyo (Japan); Ang, J. [National Institute for Materials Science, Ibaraki (Japan)]|[The Univ. of British Columbia, Vancouver (Canada)

    2006-07-01

    Ni-base single crystal (SC) superalloys containing high concentrations of refractory elements prone to generate a diffusion layer called Secondary Reaction Zone (SRZ) beneath their bond coating during exposure at high temperatures. SRZ cause a reduction of the load bearing cross section and it is detrimental to the creep properties of thin-wall turbine airfoils. In this study, a new bond coat system, ''EQ coating'' which is stable and suppressing SRZ is proposed. The characteristic of EQ system is that the coating stays in equilibrium state and never reacts with the substrate. Diffusion couples of coating materials and substrate alloys were made and were heat treated at 1100 C for 300 h and 1000 h. The concentration profiles of alloying elements in these diffusion couples were analyzed by EPMA to investigate the existence of the diffusion zone. Cyclic oxidation examinations were carried out at 1100 C in air and the oxidation properties of EQ coating materials were discussed. (orig.)

  20. Surface Crack Growth Behavior of Pipeline Steel Under Disbonded Coating at Free Corrosion Potential in Near-Neutral pH Soil Environments

    Egbewande, Afolabi; Chen, Weixing; Eadie, Reg; Kania, Richard; Van Boven, Greg; Worthingham, Robert; Been, Jenny

    2014-10-01

    Crack growth behavior of X65 pipeline steel at free corrosion potential in near-neutral pH soil environment under a CO2 concentration gradient inside a disbonded coating was studied. Growth rates were found to be highest at the open mouth of the simulated disbondment where CO2 concentrations, hence local hydrogen concentration in the local environment, was highest. Careful analysis of growth rate data using a corrosion-fatigue model of the form Δ K α / K {max/ β }/ f γ , where (1/ f γ ) models environmental contribution to growth, revealed that environmental contribution could vary by up to a factor of three. Such intense environmental contribution at the open mouth kept the crack tip atomically sharp despite the simultaneous occurrence of low-temperature creep and crack tip dissolution, which are the factors that blunt the crack tip. At other locations where environmental enhancement was lower, significant crack tip blunting attributed to both low-temperature creep and crack tip dissolution was observed. These factors both led to lower crack growth rates away from the open mouth.

  1. Decision Analysis Framework for Risk Management of Crude Oil Pipeline System

    Alex W. Dawotola

    2011-01-01

    Full Text Available A model is constructed for risk management of crude pipeline subject to rupture on the basis of a methodology that incorporates structured expert judgment and analytic hierarchy process (AHP. The risk model calculates frequency of failure and their probable consequences for different segments of crude pipeline, considering various failure mechanisms. Specifically, structured expert judgment is used to provide frequency of failure assessments for identified failure mechanisms of the pipeline. In addition, AHP approach is utilized to obtain relative failure likelihood for attributes of failure mechanisms with very low probability of occurrence. Finally, the expected cost of failure for a given pipeline segment is estimated by combining its frequency of failure and the consequences of failure, estimated in terms of historical costs of failure from the pipeline operator’s database. A real-world case study of a crude pipeline is used to demonstrate the application of the proposed methodology.

  2. Degradation and failure characteristics of NPP containment protective coating systems

    A research program to investigate the performance and potential for failure of Service Level 1 coating systems used in nuclear power plant containment is in progress. The research activities are aligned to address phenomena important to cause failure as identified by the industry coatings expert panel. The period of interest for performance covers the time from application of the coating through 40 years of service, followed by a medium-to-large break loss-of-coolant accident scenario, which is a design basis accident (DBA) scenario. The interactive program elements are discussed in this report and the application of these elements to the System 5 coating system (polyamide epoxy primer, carbon steel substrate) is used to evaluate performance

  3. A Prototype for the Cherenkov Telescope Array Pipelines Framework: Modular Efficiency Simple System (MESS)

    ,

    2015-01-01

    The Cherenkov Telescope Array (CTA) is a ground-based $\\gamma$-ray observatory that will observe the full sky in the energy range from 20 GeV to 100 TeV from facilities in both hemispheres. It is proposed to consist of more than 100 telescopes, producing large amounts of data. Apart from the storage system, there are also requirements on the software framework to allow efficient data processing, i.e. robustness, execution speed and coding efficiency. This contribution will present a plain and simple pipeline framework design prototype for CTA that builds upon well-known tools, allowing the users to focus on physics problems without learning complicated software paradigms.

  4. The pipeline system for Octave and Matlab (PSOM: a lightweight scripting framework and execution engine for scientific workflows

    Pierre Bellec

    2012-04-01

    Full Text Available The analysis of neuroimaging databases typically involves a large number of inter-connected steps called a pipeline. The pipeline system for Octave and Matlab (PSOM is a flexible framework for the implementation of pipelines in the form of Octave or Matlab scripts. PSOM does not introduce new language constructs to specify the steps and structure of the workflow. All steps of analysis are instead described by a regular Matlab data structure, documenting their associated command and options, as well as their input, output and cleaned-up files. The PSOM execution engine provides a number of automated services: (1 it executes jobs in parallel on a local computing facility as long as the dependencies between jobs allow for it and sufficient resources are available; (2 it generates a comprehensive record of the pipeline stages and the history of execution, which is detailed enough to fully reproduce the analysis; (3 if an analysis is started multiple times, it executes only the parts of the pipeline that need to be reprocessed. PSOM is distributed under an opensource MIT license and can be used without restriction for academic or commercial projects. The package has no external dependencies besides Matlab or Octave, is straightforward to install and supports of variety of operating systems (Linux, Windows, Mac. We ran several benchmark experiments on a public database including 200 subjects, using a pipeline for the preprocessing of functional magnetic resonance images. The benchmark results showed that PSOM is a powerful solution for the analysis of large databases using local or distributed computing resources.

  5. The research on corrosion condition and anticorrosion methods of SEP system pipelines in Qinshan Nuclear Power Plant Phase II

    SEP system in Qinshan nuclear power plant phase II provides drinking water and firefight water for nuclear island, conventional island, inner and outer of BOP structures. Many corrosion perforations in the SEP pipeline were found during operation. This article analysis the corrosion reasons and presents some reasonable treatment and surveillance methods. (authors)

  6. An asynchronous, pipelined, electronic acquisition system for Active Matrix Flat-Panel Imagers (AMFPIs)

    The development of a full-custom electronic acquisition system designed for readout of large-area active matrix flat-panel imaging arrays is reported. The arrays, which comprise two-dimensional matrices of pixels utilizing amorphous silicon thin-film transistors, are themselves under development for a wide variety of X-ray imaging applications. The acquisition system was specifically designed to facilitate detailed, quantitative investigations of the properties of these novel imaging arrays and contains significant enhancements compared to a previously developed acquisition system. These enhancements include pipelined preamplifier circuits to allow faster readout speed, expanded addressing capabilities allowing a maximum of 4096 array data lines, and on-board summing of image frames. The values of many acquisition system parameters, including timings and voltages, may be specified and downloaded from a host computer. Once acquisition is enabled, the system operates asynchronously of its host computer. The system allows image capture in both radiographic mode (corresponding to the capture of individual X-ray images), and fluoroscopic mode (corresponding to the capture of a continual series of X-ray images). A detailed description of the system architecture and the underlying motivations for the design is reported in this paper. (author)

  7. Intelligent Control of Welding Gun Pose for Pipeline Welding Robot Based on Improved Radial Basis Function Network and Expert System

    Jingwen Tian; Meijuan Gao; Yonggang He

    2013-01-01

    Since the control system of the welding gun pose in whole‐position welding is complicated and nonlinear, an intelligent control system of welding gun pose for a pipeline welding robot based on an improved radial basis function neural network (IRBFNN) and expert system (ES) is presented in this paper. The structure of the IRBFNN is constructed and the improved genetic algorithm is adopted to optimize the network structure. This control system makes full use of the characteristics of the IRBFNN...

  8. Modeling and monitoring - important elements in a pipeline integrity management system

    Johnsen, Roy; Gartland, Per O. [Force Technology (Norway); Baxandall, Daryl [Force Technology (Canada); Souza Junior, Helio A. de [Corrocean do Brasil Ltda., RJ (Brazil)

    2003-07-01

    A unique model for prediction of corrosion profiles in oil and gas pipelines has been created. The model is based on multiphase flow modeling, water wetting predictions, pH calculations and models of CO{sub 2} and H{sub 2}S corrosion. The input data are typically the pipeline profile, fluid composition data, production rates and data on injected chemicals. It is possible to combine the model with inspection or monitoring data. Based on the uncertainty related to the model and the available data, a probability distribution for the corrosion predictions is established. The result is combined with existing codes for the allowable corrosion attack in pressurized pipes and used to assess the need for pipeline inspection based on the risk of pipeline failure. Detailed example is given for a crude oil pipeline. (author)

  9. Measurement of Wall-thinning Defect in Pipeline for Circulation System of Nuclear Power Plant using Shearography

    Shearography was developed by Leendertz based on the concept to derive derivative for deformation after configuring proper optical interferometry. Where defect exists at rigid object, external force will create stress concentration. Rigid body deformation does not involve change in strain rate, and shearography method will be highly suitable to measure the defect in object, and it has less influence from disturbance. In this paper, shearography is used to measure wall-thinning defect according to internal temperature change in pipeline for circulation system of nuclear power plant. 2.5 inch pipeline specimen is prepared, and wall-thinning depth is 50% and 75%, respectively. Using pipeline circulation system, internal temperature of pipeline specimen to 50 ∼ 200 is changed 50, and blower is used to quench the specimen for measuring defect shape. With the experiment results, 50%,75% of the depth of the defect is possible to measure the size and shape. Thus, the actual circulatory system can be measured by applying the wall thinning defects

  10. Measurement of Wall-thinning Defect in Pipeline for Circulation System of Nuclear Power Plant using Shearography

    Kang, Chan Geun; Kim, Snag Chae; Kim, Hyun Ho; Jung, Hyun Chul; Na, Man Gyun; Kim, Kyeong Suk [Chosun University, Gwangju (Korea, Republic of)

    2014-08-15

    Shearography was developed by Leendertz based on the concept to derive derivative for deformation after configuring proper optical interferometry. Where defect exists at rigid object, external force will create stress concentration. Rigid body deformation does not involve change in strain rate, and shearography method will be highly suitable to measure the defect in object, and it has less influence from disturbance. In this paper, shearography is used to measure wall-thinning defect according to internal temperature change in pipeline for circulation system of nuclear power plant. 2.5 inch pipeline specimen is prepared, and wall-thinning depth is 50% and 75%, respectively. Using pipeline circulation system, internal temperature of pipeline specimen to 50 ∼ 200 is changed 50, and blower is used to quench the specimen for measuring defect shape. With the experiment results, 50%,75% of the depth of the defect is possible to measure the size and shape. Thus, the actual circulatory system can be measured by applying the wall thinning defects.

  11. Study on Detection Technique for Pipeline Leakage

    李健; 王立坤; 周琰; 靳世久

    2003-01-01

    Pipeline integrity defect is a considerable portion in all the defects. Therefore, the study on detection technique is of great concern to the owners of pipelines. A real-time monitoring system of pipeline defect is established. For unexpected accidents of pipeline leakage, several methods of signal processing, including wavelet analysis are utilized. The leakage can be located accurately in time. This system is applied to many long distance pipelines in China, which has made great contributions to the economy.

  12. REALTIME MONITORING OF PIPELINES FOR THIRD-PARTY CONTACT

    Gary L. Burkhardt; Alfred E. Crouch

    2004-10-01

    Third-party contact with pipelines (typically caused by contact with a digging or drilling device) can result in mechanical damage to the pipe, in addition to coating damage that can initiate corrosion. Because this type of damage often goes unreported and can lead to eventual catastrophic failure of the pipe, a reliable, cost-effective method is needed for monitoring and reporting third-party contact events. The impressed alternating cycle current (IACC) pipeline monitoring method consists of impressing electrical signals on the pipe by generating a time-varying voltage between the pipe and the soil at periodic locations where pipeline access is available. The signal voltage between the pipe and ground is monitored continuously at receiving stations located some distance away. Third-party contact to the pipe that breaks through the coating changes the signal received at the receiving stations. In this project, the IACC monitoring method is being developed, tested, and demonstrated. Work performed to date includes (1) a technology assessment, (2) development of an IACC model to predict performance and assist with selection of signal operating parameters, (3) Investigation of potential interactions with cathodic protection systems, and (4) experimental measurements on buried pipe at a test site as well as on an operating pipeline. Initial results show that simulated contact can be detected. Future work will involve further refinement of the method and testing on operating pipelines.

  13. Anticorrosive field joint coating qualification, heat shrinkable sleeve; Qualificacao de revestimento anticorrosivo para juntas de campo, mantas termocontrateis

    Cabral, Glaucia B.; Koebsch, Andre; Castinheiras Junior, Wilson [PETROBRAS, Rio de Janeiro, RJ (Brazil)

    2005-07-01

    The main objective of this job is to present the quality requirements fixed by PETROBRAS for anticorrosive field joint coating for buried pipelines, industrially coated with PE-3L. It describes the used system - polyethylene based heat shrinkable sleeve - comparing with the existent on the pipeline. So, it exposes the suppliers' qualification stages, which include test carried out for the materials, for the sleeve set and for the coating after its application on the joint field. Finally, it shows that the experience, which has been gotten in the qualification, consolidated the quality control systematic that have been carry out during the sleeves acquisition and application at the pipeline construction. (author)

  14. Research and Development on Control System of Novel Winding Machine for High-pressure FRP Pipeline

    YOU Bo; XU Jiazhong; HU Haiyan; CHENG Ningbo; ZHANG Qingli

    2006-01-01

    The novel winding machine adopted steam inside solidification technics, can wind, solidify and extract high-pressure fiber reinforced plastic (FRP) pipelines in one single machine. Its control system consisted of the winding and extraction subsystem and the steam inside solidification subsystem. In order to improve the control precision and stability, a real-time control method was adopted in the winding and extraction subsystem. In this method, high-precision TRIO motion controller combined with industrial personal computer (IPC) forms an open-type CNC system which supports multitask. The Modbus protocol was adopted for the communication between the IPC and TRIO motion controller. The human-machine interface (HMI) was developed with VC++ 6.0 and the control software of the motion controller was developed with TRIO BASIC language. In the steam inside solidification subsystem, embedded IPC and PLC were used to realize the closed-loop control of the steam temperature and the HMI was developed with MCGS 5.1 under WinCE. Practices show that this system has the good performances of high precision, good stability and high efficiency.

  15. New alarm system approach for detection and location of small leaks from pipelines

    Vapor Monitoring Wells are an accepted method to monitor for leaks from underground storage tanks and pipe. This paper discusses a method that is similar to well leak detection technique, yet superior for pipelines for reasons to be defined. Vapors from a leak source migrate through the soil. The time required for a leak to migrate a known distance is dependent on the vapor pressure of the leaking substance, the leak rate, and finally, soil type, compaction, and collection device is to the leak source the shorter the time required for the premise that the sensor tube acts as a continuous row of wells that can all be automatically sampled with one central pump/detector. The system precisely locates the leak. The benefit of this system is earlier detection and location of small leaks to minimize product loss to the environment. Dr. Wolfgang Issel developed Leak Alarm System for Pollutants, LASP, with the support of the German Ministry of Research and Technology to protect groundwater and other environmentally sensitive zones

  16. Logistics aspects of petroleum pipeline operations

    W. J. Pienaar

    2010-11-01

    Full Text Available The paper identifies, assesses and describes the logistics aspects of the commercial operation of petroleum pipelines. The nature of petroleum-product supply chains, in which pipelines play a role, is outlined and the types of petroleum pipeline systems are described. An outline is presented of the nature of the logistics activities of petroleum pipeline operations. The reasons for the cost efficiency of petroleum pipeline operations are given. The relative modal service effectiveness of petroleum pipeline transport, based on the most pertinent service performance measures, is offered. The segments in the petroleum-products supply chain where pipelines can play an efficient and effective role are identified.

  17. Leadership Pipeline

    Elmholdt, Claus Westergård

    2012-01-01

    Artiklen analyserer grundlaget for Leadership Pipeline modellen med henblik på en vurdering af substansen bag modellen, og perspektiverne for generalisering af modellen til en dansk organisatorisk kontekst.......Artiklen analyserer grundlaget for Leadership Pipeline modellen med henblik på en vurdering af substansen bag modellen, og perspektiverne for generalisering af modellen til en dansk organisatorisk kontekst....

  18. Pipeline Drag Reducers

    Pipeline drag reducers have proven to be an extremely powerful tool in fluid transportation. High molecular weight polymers are used to reduce the frictional pressure loss ratio in crude oil pipelines, refined fuel and aqueous pipelines. Chemical structure of the main used pipeline drag reducers is one of the following polymers and copolymers classified according to the type of fluid to ; low density polyethylene, copolymer of I-hexane cross linked with divinyl benzene, polyacrylamide, polyalkylene oxide polymers and their copolymers, fluorocarbons, polyalkyl methacrylates and terpolymer of styrene, alkyl acrylate and acrylic acid. Drag reduction is the increase in pump ability of a fluid caused by the addition of small amounts of an additive to the fluid. The effectiveness of a drag reducer is normally expressed in terms of percent drag reduction. Frictional pressure loss in a pipeline system is a waste of energy and it costly. The drag reducing additive minimizes the flow turbulence, increases throughput and reduces the energy costs. The Flow can be increased by more than 80 % with existing assets. The effectiveness of the injected drag reducer in Mostorod to Tanta crude oil pipeline achieved 35.4 % drag reduction and 23.2 % flow increase of the actual performance The experimental application of DRA on Arab Petroleum Pipeline Company (Summed) achieved a flow increase ranging from 9-32 %

  19. DIFFUSION COATINGS FOR CORROSION RESISTANT COMPONENTS IN COAL GASIFICATION SYSTEMS

    Gopala N. Krishnan; Ripudaman Malhotra; Angel Sanjurjo

    2004-05-01

    Heat-exchangers, particle filters, turbines, and other components in integrated coal gasification combined cycle system must withstand the highly sulfiding conditions of the high temperature coal gas over an extended period of time. The performance of components degrades significantly with time unless expensive high alloy materials are used. Deposition of a suitable coating on a low cost alloy may improve is resistance to such sulfidation attack and decrease capital and operating costs. The alloys used in the gasifier service include austenitic and ferritic stainless steels, nickel-chromium-iron alloys, and expensive nickel-cobalt alloys. A review of the literature indicated that the Fe- and Ni-based high-temperature alloys are susceptible to sulfidation attack unless they are fortified with high levels of Cr, Al, and Si. To impart corrosion resistance, these elements need not be in the bulk of the alloy and need only be present at the surface layers. We selected diffusion coatings of Cr and Al, and surface coatings of Si and Ti for the preliminary testing. These coatings will be applied using the fluidized bed chemical vapor deposition technique developed at SRI which is rapid and relatively inexpensive. We have procured coupons of typical alloys used in a gasifier. These coupons will be coated with Cr, Al, Si, and Ti. The samples will be tested in a bench-scale reactor using simulated coal gas compositions. In addition, we will be sending coated samples for insertion in the gas stream of the coal gasifier.

  20. Logistics aspects of petroleum pipeline operations

    W. J. Pienaar

    2010-01-01

    The paper identifies, assesses and describes the logistics aspects of the commercial operation of petroleum pipelines. The nature of petroleum-product supply chains, in which pipelines play a role, is outlined and the types of petroleum pipeline systems are described. An outline is presented of the nature of the logistics activities of petroleum pipeline operations. The reasons for the cost efficiency of petroleum pipeline operations are given. The relative modal service effectiveness of petr...

  1. Cement-lined pipelines. Opportunities and limitations for intelligent pigs

    Bogumil, H.G.; Westeinde, P. van' t [BEB Erdgas und Erdoel GmbH, Hannover (Germany); Bukman, F.; Schmidt, R. [3P Services GmbH und Co. KG, Lingen (Germany)

    1999-09-01

    For the inspection of pipelines for internal and external corrosion, the 'in-line inspection' using 'intelligent pigs', has become state-of-the-art as far as oil and gas transport pipelines are concerned. Since recent years, also small diameter tools - as small as 4'' - have become available. BEB, operator of several German oil and gas fields, has applied these systems in field, gathering and small transport pipelines of 4'' to 8'' with good success. In one of its oil fields, where wet oil contains H{sub 2}S, internal cement coating is applied to protect the steel pipe from internal corrosion. An in-line-inspection was considered necessary, however, the internal coating, having a thickness of 8 mm, was in contrary to the general requirement of intelligent pigs to have direct contact to the internal pipe (=steel) surface. Pull tests that were carried out in cement coated pipes using the PiCoLo equipment of 3P Services (based on the magnetic flux leakage/MFL principle) indicated that reasonable results could be achieved, however, at reduced resolution. The necessary pig equipment was custom made and applied to inspect cement coated field lines of 6'' and 4''. This task required two inspection steps: First, a high resolution geometric inspection pig recorded spots of defective cement coating, and second, the MFL pig inspected the lines for corrosion. Only by correlating the different sets of data it was possible to distinguish and describe the various defect cases, like (1) different degrees of loss of cement coating without corrosion at the pipe wall, (2) a defective coating with corrosion, or (3) external metal loss with the coating and internal pipe surface not being affected. (orig.)

  2. Process Optimization of a Novel Immediate Release Film Coating System using QbD Principles

    Teckoe, Jason; Mascaro, Tracey; Farrell, Thomas P.; Rajabi-Siahboomi, Ali R.

    2013-01-01

    This work describes a quality-by-design (QbD) approach to determine the optimal coating process conditions and robust process operating space for an immediate release aqueous film coating system (Opadry® 200). Critical quality attributes (CQAs) or associated performance indicators of the coated tablets were measured while coating process parameters such as percent solids of the coating dispersion, coating spray rate, inlet air temperature, airflow rate and pan speed were varied, using a desig...

  3. Risk-based optimization of the design of on-shore pipeline shutdown systems

    Medina, Héctor; Arnaldos Viger, Josep; Casal Fàbrega, Joaquim; Bonvicini, Sarah; Cozzani, Valerio

    2012-01-01

    Crude oil and other liquid materials are transported in large quantities through pipelines. Pipelines are an efficient and safe transport way as compared to both rail and road transportation, both from the economical and environmental points of view. Nevertheless, loss of containment accidents can occur due to external action ea mechanical impact, for examplee or to corrosion, aging, etc. Even though the frequency of such events is certainly very low, the effects and consequences ...

  4. PGPG: An Automatic Generator of Pipeline Design for Programmable GRAPE Systems

    Hamada, Tsuyoshi; Fukushige, Toshiyuki; Makino, Junichiro

    2007-01-01

    We have developed PGPG (Pipeline Generator for Programmable GRAPE), a software which generates the low-level design of the pipeline processor and communication software for FPGA-based computing engines (FBCEs). An FBCE typically consists of one or multiple FPGA (Field-Programmable Gate Array) chips and local memory. Here, the term "Field-Programmable" means that one can rewrite the logic implemented to the chip after the hardware is completed, and therefore a single FBCE can be used for calcu...

  5. The monitoring system of the pipeline safety of the coal mine gas drainage based on the optic fiber sensing technology

    Li, Yan-fang; Wei, Yubin; Zhang, Tingting; Zhao, Yanjie; Lv, Lei; Liu, Tong-yu

    2013-09-01

    Based on the technology of the spectrum absorption and the FBG, the monitoring system realize on line detection of the concentration of methane and oxygen, the temperature and the pressure of the gas in pipeline, and in order to improve the accuracy of the gas detection, we induce the compensation to the gas concentration using the data of the temperature and the pressure. In order to have a effective utilization of the methane in the coal mine gas drainage system, we have to have a accurate measurements of the concentration, the temperature and the pressure of the gas in pipeline. At the same time the dynamic monitoring of the concentration of Oxygen is a sign of the leakage of the pump. This paper gave some data detected in the field of the coal mine gas drainage system.

  6. Deformation And Fracture Analysis Of Coating-Substrate Systems

    Kot M.

    2015-09-01

    Full Text Available The paper presents the deformation and fracture analysis of coating-substrate systems during spherical indentation. CrN and TiN ceramic coatings with a thickness of 1-5 μm were tested using 10 to 200 μm tip radius spherical indenters. The typical results of indentation tests i.e. force-penetration depth curves were transformed into stress-strain curves using an algorithm developed by the author. The test results are compared with the results of numerical analysis conducted using FEM modelling. Such a complex analysis allows users to determine the level of tensile stress leading to the formation of cracks observed using SEM and TEM microscopy, and to define the failure maps for the coating substrate-systems.

  7. Surface electromagnetic technology for the external inspection of oil and gas pipelines

    Mousatov, A.; Nakamura, E.; Delgado, O.; Flores, A. [Mexican Petroleum Institute, Mexico City (Mexico); Nakamura, E. [Moscow State University, Moscow (Russian Federation); Shevnin, V. [Moscow State University (Russian Federation)

    2009-07-01

    In this paper we present a surface electromagnetic technology for the non-destructive pipeline coating inspection (SEMPI). This technology allows: determination of the depth and plane position of pipelines, quantitative evaluation of the insulation resistance and delimitation of zones with coating damages, estimation of the performance of the cathodic protection system (CPS) and detection of its connections to out-of-service pipes and other grounded constructions, and assessment of the soil aggressively. The SEMPI technology is based on the approximation of pipelines by heterogeneous transmission lines with variable leakage conductance and pipe impedance to represent insulation coating and wall thickness damages. Based on the result of simulations, we have optimized the field measurements and developed the interpretation procedure of experimental data. The field operations include surface measurements of magnetic field, voltage on the control posts of the CPS and soil resistivity. In zones with coating damages the detailed measurements can be performed using magnetic or electric field to increase the resolution in localizing and evaluating the insulation damages. The SEMPI technology has been applied for inspections of pipelines with different technical characteristics in complicated environmental conditions. The examples presented in this work confirm the high efficiency of the developed technology for external integrity evaluation of pipelines. (author)

  8. IMPROVEMENT TO PIPELINE COMPRESSOR ENGINE RELIABILITY THROUGH RETROFIT MICRO-PILOT IGNITION SYSTEM

    Scott Chase; Daniel Olsen; Ted Bestor

    2005-05-01

    This report documents a 3-year research program conducted by the Engines & Energy Conversion Laboratory (EECL) at Colorado State University (CSU) to develop micropilot ignition systems for existing pipeline compressor engines. Research activities for the overall program were conducted with the understanding that the efforts are to result in a commercial product to capture and disseminate the efficiency and environmental benefits of this new technology. An extensive state-of-art review was conducted to leverage the existing body of knowledge of micropilot ignition with respect to retrofit applications. Additionally, commercially-available fuel injection products were identified and applied to the program where appropriate. This approach will minimize the overall time-to-market requirements, while meeting performance and cost criteria. The objective for Phase I was to demonstrate the feasibility of micropilot ignition for large bore, slow speed engines operating at low compression ratios under laboratory conditions at the EECL. The primary elements of Micropilot Phase I were to develop a single-cylinder test chamber to study the injection of pilot fuel into a combustion cylinder and to develop, install and test a multi-cylinder micropilot ignition system for a 4-cylinder, natural gas test engine. In all, there were twelve (12) tasks defined and executed to support these two (2) primarily elements in a stepwise fashion. Task-specific approaches and results are documented in this report. The four-cylinder prototype data was encouraging for the micro-pilot ignition technology when compared to spark ignition. The objective for Phase II was to further develop and optimize the micropilot ignition system at the EECL for large bore, slow speed engines operating at low compression ratios. The primary elements of Micropilot Phase II were to evaluate the results for the 4-cylinder system prototype developed for Phase I, then optimize this system and prepare the technology for

  9. Efficiency of Pipeline System for Sprinkler Irrigation in Well Irrigation Areas%井灌区喷灌管路系统的效率分析

    高传昌; 冯跃志

    2000-01-01

    就井灌区低压管道输水灌溉工程改造成喷灌工程后,对影响喷灌管路系统效率的因素进行了分析,给出了其管路系统效率的计算公式。最后探讨了提高喷灌管路系统效率的途径。%This paper analyses the factors that influence efficiency of pipeline system for sprinkler irri-gation, under condition of changing existing low pressture pipeline irrigation system into sprinkler irri-gation system. The formulas used to calculated efficiency of sprinkler irrigation pipeline system andthe measures to improve pipeline system efficiency are also presented.

  10. New concept for cathodic protection of offshore pipelines to reduce hydrogen induced stress cracking (HISC) in high strength 13% Cr stainless steels

    Eliassen, S.

    2004-05-01

    Cathodic protection (CP) of submarine pipelines has generally been based on a conservative approach, as consequences of failure, to a great extent, are higher than the cost of installations. All design parameters and procedures are based on robust selections. Recent failures on pipelines with supermartensitic stainless steel (SMSS) materials have challenged this approach and laid the way for new design aspects with more realistic use of parameters. A new design concept has been introduced for the cathodic protection of offshore pipelines made from high strength stainless steel materials such as supermartensitic stainless steels (SMSS) with enhanced coating systems such as multilayer polypropylene coatings for combined corrosion protection and thermal insulation. The objectives are to reduce the susceptibility to hydrogen induced stress cracking (HISC) and coating damage. Conditions for the pipeline material, which can cause HISC have been studied and this has motivated the use of the new design concept. The study has been concerned with materials testing, CP-design parameters, CP installation and pipeline attachments, pipeline design, coating quality and direct electrical beating systems for hydrate control. The study has shown that the most critical factors for HISC are pipeline conditions with high stress and strain, especially stress concentrations, potential levels more negative than -0.80 V versus Ag/AgCl, low operating temperatures, coating failures and deep waters (high hydrostatic pressures). The paper gives a detailed overview of the new concept with regard to protection potentials for different pipeline materials; selection of design current density requirements; use of anodes with reduced driving potentials; use of subsea isolating joints; CP design principles; installation methods; compatibility with the direct electrical heating systems for hydrate control. The basis for the design has been the new ISO Draft International Standard 15889-2 on cathodic

  11. Preparation and Properties of Polyester-Based Nanocomposite Gel Coat System

    M. Balasubramanian

    2007-01-01

    Full Text Available Nanocomposite gel coat system is prepared using unsaturated polyester resin with aerosil powder, CaCO3, and organoclay. The influence of organoclay addition on mechanical and water barrier properties of gel coat system is studied for different amount (1, 2, and 3 wt % of organoclay. The nanolevel incorporation of organoclay improves the mechanical and water barrier properties of nanocomposite gel coat system. The nanocomposite gel coat system exhibits 55% improvement in tensile modulus and 25% improvement in flexural modulus. There is a 30% improvement in impact property of nanocomposite gel coat system. The dynamic mechanical analysis shows a slight increase in glass transition temperature for nanocomposite gel coat system.

  12. Flow Tones in a Pipeline-Cavity System: Effect of Pipe Asymmetry

    D. Erdem; D. rockwell; P. Oshkai; M. Pollack

    2002-05-29

    Flow tones in a pipeline-cavity system are characterized in terms of unsteady pressure within the cavity and along the pipe. The reference case corresponds to equal lengths of pipe connected to the inlet and outlet ends of the cavity. Varying degrees of asymmetry of this pipe arrangement are investigated. The asymmetry is achieved by an extension of variable length, which is added to the pipe at the cavity outlet. An extension length as small as a few percent of the acoustic wavelength of the resonant mode can yield a substantial reduction in the pressure amplitude of the flow tone. This amplitude decrease occurs in a similar fashion within both the cavity and the pipe resonator, which indicates that it is a global phenomenon. Furthermore, the decrease of pressure amplitude is closely correlated with a decrease of the Q (quality)-factor of the predominant spectral component of pressure. At a sufficiently large value of extension length, however, the overall form of the pressure spectrum recovers to the form that exists at zero length of the extension. Further insight is provided by variation of the inflow velocity at selected values of extension length. Irrespective of its value, both the magnitude and frequency of the peak pressure exhibit a sequence of resonant-like states. Moreover, the maximum attainable magnitude of the peak pressure decreases with increasing extension length.

  13. Flow Tones in a Pipeline-Cavity System: Effect of Pipe Asymmetry

    D. Erdem; D. Rockwell; P.L. Oshkai; M. Pollack

    2001-02-28

    Flow tones in a pipeline-cavity system are characterized in terms of unsteady pressure within the cavity and along the pipe. The reference case corresponds to equal lengths of pipe connected to the inlet and outlet ends of the cavity. Varying degrees of asymmetry of this pipe arrangement are investigated. The asymmetry is achieved by an extension of variable length, which is added to the pipe at the cavity outlet. An extension length as small as a few percent of the acoustic wavelength of the resonant mode can yield a substantial reduction in the pressure amplitude of the flow tone. This amplitude decrease occurs in a similar fashion within both the cavity and the pipe resonator, which indicates that it is a global phenomenon. Furthermore, the decrease of pressure amplitude is closely correlated with a decrease of the Q (quality)-factor of the predominant spectral component of pressure. At a sufficiently large value of extension length, however, the overall form of the pressure spectrum recovers to the form that exists at zero length of the extension. Further insight is provided by variation of the inflow velocity at selected values of extension length. Irrespective of its value, both the magnitude and frequency of the peak pressure exhibit a sequence of resonant-like states. moreover, the maximum attainable magnitude of the peak pressure decreases with increasing extension length.

  14. North Slope pipeline work strong; gas pipeline project deferred

    Hale, D.

    1982-09-01

    Over 225 miles of insulated pipelines will be installed on the North Slope as part of a 5-year, $10.5 billion program by Sohio and Arco to maintain output from the field to feed the trans-Alaska oil pipeline. New lines are for waterflood supply systems, low pressure production systems, produced water handling, and gas handling. Pipeline construction is quite active at both Prudhoe Bay and at Kuparuk Field. Future projects include an oil line to the Beaufort Sea, the Polar Gas Project, the Arctic Pilot project, and the Northern Tier Pipeline.

  15. Integration of Wind Energy, Hydrogen and Natural Gas Pipeline Systems to Meet Community and Transportation Energy Needs: A Parametric Study

    Shahryar Garmsiri; Marc A. Rosen; Gordon Rymal Smith

    2014-01-01

    The potential benefits are examined of the “Power-to-Gas†(P2G) scheme to utilize excess wind power capacity by generating hydrogen (or potentially methane) for use in the natural gas distribution grid. A parametric analysis is used to determine the feasibility and size of systems producing hydrogen that would be injected into the natural gas grid. Specifically, wind farms located in southwestern Ontario, Canada are considered. Infrastructure requirements, wind farm size, pipeline capacity...

  16. Using a central Vehicle Holding Compound (VHC) in an open pipeline automotive order fulfilment system: a simulation study

    MacCarthy, Bart L.; Ovutmen, Tamer

    2015-01-01

    Satisfying requests for specific vehicle variants in a timely manner may increase profit margins for the automotive producer and automotive dealers and may reduce the need to incentivise customers financially to make a purchase. Open pipeline order fulfilment systems have emerged in the automotive sector to allow dealers to fulfil a customer in a number of ways. Not only can a dealer search its own stock for a suitable match to a customer’s requested vehicle specification, the dealer can al...

  17. Mathematical analysis of marine pipeline leakage monitoring system based on coherent OTDR with improved sensor length and sampling frequency

    Pnev, A. B.; Zhirnov, A. A.; Stepanov, K. V.; Nesterov, E. T.; Shelestov, D. A.; Karasik, V. E.

    2015-01-01

    A system based on coherent optical time domain reflectometry (OTDR) for subsea pipeline monitoring is described. The fiber sensor length is increased using erbium-doped fiber amplifier (EDFA) cascades. The sampling frequency is increased by dividing the fiber sensor into separate sensitive areas, with parallel scanning. The calculation of the erbium amplifier cascade spontaneous noise influence on the signal-to-noise ratio (SNR) is carried out.

  18. Unique coatings produced by water based plasma system

    Chráska, Pavel

    New York : Stony Brook University, 2014. [Center for Thermal Spray Research, Spring 2014 Consortium Meeting. New York (US), 04.06.2014-05.06.2014] Institutional support: RVO:61389021 Keywords : plasma spraying * water/hybrid systems * coatings * natural materils * FGM Subject RIV: JH - Ceramics, Fire-Resistant Materials and Glass http://www.ctsr-sunysb.org/PublicationsLogIn.aspx

  19. Investigation of thermal fatigue behavior of thermal barrier coating systems

    In the present study, the mechanisms of fatigue crack initiation and propagation, and of coating failure under thermal loads that simulate those in diesel engines are investigated. Surface cracks initiate early and grow continuously under thermal low cycle fatigue (LCF) and high cycle fatigue (HCF) stresses. It is found that, in the absence of interfacial oxidation, the failure associated with LCF is closely related to coating sintering and creep at high temperatures. Significant LCF and HCF interactions have been observed in the thermal fatigue tests. The fatigue crack growth rate in the ceramic coating strongly depends on the characteristic HCF cycle number, N*HCF which is defined as the number of HCF cycles per LCF cycle. The crack growth rate is increased from 0.36 μm/LCF cycle for a pure LCF test to 2.8 μm/LCF cycle for a combined LCF and HCF test at N*HCF about 20 000. A surface wedging model has been proposed to account for the HCF crack growth in the coating systems. This mechanism predicts that the HCF damage effect increases with heat flux and thus with increasing surface temperature swing, thermal expansion coefficient and elastic modulus of the ceramic coating, as well as with the HCF interacting depth. Good correlation has been found between the analysis and experimental evidence. (orig.)

  20. Development of a system based on transmission of gamma radiation for detection of incrustations in pipelines used for oil extraction

    Incrustation in pipelines found in oil exploration facilities - a problem that has been related since the '30s - reduce the flow and, as a consequence, the efficiency of the plant, thus impairing the activities of exploration and production of oil. These incrustations occur when there is mixing between water from the formation of the wells and the sea water injected in them - an injection which aims to increase the capacity of lifting and removal of the oil trapped in reservoirs. The purpose of this work is the development and application of the technique of gamma transmission to detect incrustations in pipelines for prospecting of oil. The measurements were performed using a system composed of Cs-137 source and NaI(Tl) scintillator detector. The results were processed in a spreadsheet for calculating the measurement of the thickness of the incrustation located in pipelines. The spreadsheet performs simulations of the interaction of radiation based on the known data of the pipe, such as diameter, thickness and composition, providing values of intensity that are compared with those obtained experimentally, and thus it is able to determine the existence and thickness of an infiltration layer. For the validation of both the simulation and the system, some laboratory tests were performed with a sample of pipe containing parts with and without incrustation. The results showed that, despite the limitations, the system was efficient enough to detect incrustations, showing the advantage of the reduced dose which is of great importance in offshore environments. (author)

  1. Product through pipelines : transportation options

    Ballyntyne, R. [Terasen Pipelines, Calgary, AB (Canada)

    2004-07-01

    This PowerPoint presentation provided a brief overview of the corporate structure of Terasen Pipelines along with a map displaying the locations of the pipelines it operates and new directions for growth. It also presented a proposal to deliver petroleum products from Alberta's oilsand fields to markets via the Corridor and Express pipeline systems, and evaluated the issue of transporting petrochemicals via rail transport rather than pipeline. Industry is also examining the option of shipping refined products through a trans mountain system from Alberta to British Columbia and California. A chart highlighting Canadian crude oil production was presented along with an oil sands pipeline capacity chart. It was noted that significant investment in refining capacity is needed and that new pipeline facilities will be required to meet the needs of oil sands developments. tabs., figs.

  2. Mathematical Modeling of Fuel Pressure inside High Pressure Fuel Pipeline of Combination Electronic Unit Pump Fuel Injection System

    Qaisar Hayat

    2013-08-01

    Full Text Available In order to completely understand the trend of pressure variations inside High Pressure (HP fuel pipeline of Combination Electronic Unit Pump (CEUP fuel injection system and study the impact of two major physical properties of fuel i.e., density and dynamic viscosity on pressure a 1D nonlinear dynamic mathematical model of fuel pressure inside pipeline using Wave Equation (WE has been developed in MATLAB using finite difference method. The developed model is based on the structural parameters of CEUP fuel injection system. The impact of two major physical properties of the fuel has been studied as a function of pressure at various operating conditions of diesel engine. Nearly 13.13 bars of increase in pressure is observed by increasing the density from 700 kg/m3 to 1000 kg/m3. Whereas an increase of viscosity from 2 kg/m.s to 6 kg/m.s results in decrease of pressures up to 44.16 bars. Pressure corrections in the mathematical model have been incorporated based on variations of these two fuel properties with the pressure. The resultant pressure profiles obtained from mathematical model at various distances along the pipeline are verified by correlating them with the profiles obtained from simulated AMESim numerical model of CEUP. The results show that MATLAB mathematical results are quite coherent with the AMESim simulated results and validate that the model is an effective tool for predicting pressure inside HP pipelines. The application of the this mathematical model with minute changes can therefore be extended to pressure modeling inside HP rail of Common Rail (CR fuel injection system.

  3. Development of a combined ultrasonic and eddy current test system for the internal testing of austenitic pipelines filled with water

    A pipe crawler (or 'pig') was developed as system support, which makes it possible to test the pipe circular seams, the pipe longitudinal seams, the welding-in seams of the nozzles going from the pipeline and the RPV welding-in seams. To test the 30 weld seams which are contained in the recirculation water loop, special test sensors were developed, which take the technical test and manipulation requirements into account. The SIALOK system is used as ultrasonic test equipment and the M12 18 system is used as eddy current test system. (orig./DG)

  4. PGPG: An Automatic Generator of Pipeline Design for Programmable GRAPE Systems

    Hamada, T; Makino, J; Hamada, Tsuyoshi; Fukushige, Toshiyuki; Makino, Junichiro

    2007-01-01

    We have developed PGPG (Pipeline Generator for Programmable GRAPE), a software which generates the low-level design of the pipeline processor and communication software for FPGA-based computing engines (FBCEs). An FBCE typically consists of one or multiple FPGA (Field-Programmable Gate Array) chips and local memory. Here, the term "Field-Programmable" means that one can rewrite the logic implemented to the chip after the hardware is completed, and therefore a single FBCE can be used for calculation of various functions, for example pipeline processors for gravity, SPH interaction, or image processing. The main problem with FBCEs is that the user need to develop the detailed hardware design for the processor to be implemented to FPGA chips. In addition, she or he has to write the control logic for the processor, communication and data conversion library on the host processor, and application program which uses the developed processor. These require detailed knowledge of hardware design, a hardware description ...

  5. Effect of carbon on microstructure of CrAlCχN1-χ coatings by hybrid coating system

    Sung-Kyu AHN; Se-Hun KWON; Kwang-Ho KIM

    2011-01-01

    A systematic investigation of the microstructure of CrAICχN1-χ coatings as a function of carbon contents was conducted.Quaternary CrAICχN1-χ coatings were deposited on Si wafers by a hybrid coating system combining an arc-ion plating technique and a DC reactive magnetron sputtering technique using Cr and Al targets in the Ar/N2/CH4 gaseous mixture. The effect of carbon content on microstructure of CrAICχN1-χ coatings was investigated with instrumental analyses of X-ray diffraction, X-ray photoelectron, and high-resolution transmission electron microscopy. The results show that the carbon content of CrAICχN1-χ coatings linearly increases with increasing CH4/(CH4/N2) gas flow rate ratio. The surface roughness of the CrAICχN 1-χ coating layer decreases with the increase of carbon content.

  6. Quantitative risk assessment of hazardous materials transport systems. Rail, road, pipelines and ship

    The purpose of this volume is to highlight the main procedures for assessing the regional risks resulting from dangerous goods storage, and transportation by means of different technical systems. The information contained in this book is based on a wide range of references and studies. The main procedural steps involved in quantitative risk analysis for transportation systems are supported by relevant methods or risk assessment recognized on an international level. The present book gives an overview of the criteria and guidelines applicable to the implementation of risk assessment and management at different stages. Chapter 1 describes the environmental and safety factors to consider, when performing a transportation risk analysis for a region. Chapter 2 presents risk definitions and the methodology for analysing transportation risks in a complex area. Chapter 3 presents general information about truck accidents and their consequences, and reviews the risk presented by road tunnels. Chapter 4 deals with transportation of hazardous materials by rail. Chapter 5 is more concerned with the assessment of transportation risks on water ways. Chapter 6 furnishes a description of the transport pipelines for natural gas and petroleum products and describes the situation of Switzerland. Chapter 7 presents a compilation of statistical data related to accidents and dangerous goods' movements. Chapter 8 is devoted to the description of data bases and computer support for risk assessment. Chapter 9 deals with integrated approaches for regional risk assessment and safety management with special emphasis to the transportation of hazardous materials. Chapter 10 presents several relevant case studies and miscellaneous information. (author) figs., tabs., refs

  7. Polymers coatings of fluid pipelines: characterization and evolution of the adhesion in aggressive medium; Revetements polymeres de canalisation de fluide: caracterisation et evolution de l'adhesion en milieu agressif

    Coeuille, F.

    2002-07-15

    This study deals with the adhesion and the ageing of an external three-layer polyethylene coating applied to buried steel pipelines. In order to avoid corrosion of the pipe external surface, 'Gaz De France' utilizes two complementary methods of protection: The first is passive protection achieved by the use of an organic coating that acts as a barrier between pipe and the surrounding environment. This is supplemented by an electrochemical method known as 'Cathodic Protection' (CP), which prevents corrosion of the metal surface where it is exposed to the environment at holidays and other defects in the barrier coating. The coating comprises three polymers, successively applied on the surface of the pipe in the following sequence: 1. A thin layer of Epoxy (Ep) is directly sprayed on the prepared metal surface. 2. An adhesive layer called Ethylene Butyl Acrylate (EBA) is extruded on this first layer of Epoxy. 3. A thick topcoat of Polyethylene (HDPE) is extruded on the EBA. Excellent adhesion of the coating to the metal substrate is critical if the coating is to act as a long-term barrier to corrosion. Our study used a 'peel test' to characterise and quantify adhesion. This test was considered the most suitable considering the geometry and composition of our samples. The study of samples without 'surface failure' showed that the adhesion of this coating is directly dependent on the quality of the manufacturing process. A pipeline's service lifetime can be very long (up to 50 years). Therefore we have used harsh experimental conditions to accelerate ageing on samples. Samples without 'surface failure', and samples with 'surface failure' were tested to make an ageing comparison. Only samples with 'surface failure' suffered premature ageing. The results showed the weakness of Epoxy compared to the other external layers (EBA and HDPE), that are much less permeable to water. Specific water diffusion

  8. Whole new ball game : pipeline leak detection system undergoes first field trial

    Marsters, S.

    2007-07-15

    This article described an innovative and portable technology that detects leaks in oil and gas pipelines. Pure Technologies Ltd. completed the first field trial of its SoundPrint SmartBall, a free-swimming foam ball with an embedded sensor in an aluminum core that detects leaks as the ball moves through the pipe. The technology is based on the premise that sound is released when a pressurized fluid is escaping. The field trial was performed over 18 kilometres of a 10-inch crude oil pipeline in Texas. The SmartBall was first sent through a pipeline without any artificial leaks. It was then sent through a pipeline with an artificial leak constructed at one of the block valves. The SmartBall was able to detect the artificial leak from hundreds of metres away. The device was deployed and retrieved without incident by pipeline operations personnel using existing pigging infrastructure. It was determined that the device can detect leaks of less than 3.78 litres per minute at an operating pressure of 8.6 bars. The size of the SmartBall is generally between 50 to 80 per cent of the diameter of the pipeline and depends on other factors such as location of in-line vales, the size of the appurtenances through which the ball is inserted and retrieved and the presence of other lateral lines. The device records acoustic information as it travels in the pipe. Alternatively, transducers that emit an acoustic pulse can be installed on pipe appurtenances. The leaks can be located by analyzing the relative arrival time of pulses. The device can operate for up to 40 hours, enough to travel 100 kilometres in a single deployment. Pure Technologies is now working on getting this new technology accepted by the industry. 2 figs.

  9. High performance coated board inspection system based on commercial components

    Barjaktarovic, M; Radunovic, J

    2007-01-01

    This paper presents a vision system for defect (fault) detection on a coated board developed using three industrial firewire cameras and a PC. Application for image processing and system control was realized with the LabView software package. Software for defect detection is based on a variation of the image segmentation algorithm. Standard steps in image segmentation are modified to match the characteristics of defects. Software optimization was accomplished using SIMD (Single Instruction Multiple Data) technology available in the Intel Pentium 4 processors that provided real time inspection capability. System provides benefits such as: improvement in production process, higher quality of delivered coated board and reduction of waste. This was proven during successful exploitation of the system for more than a year.

  10. Assessment of the service performance of drainage system and transformation of pipeline network based on urban combined sewer system model.

    Peng, Hai-Qin; Liu, Yan; Wang, Hong-Wu; Ma, Lu-Ming

    2015-10-01

    In recent years, due to global climate change and rapid urbanization, extreme weather events occur to the city at an increasing frequency. Waterlogging is common because of heavy rains. In this case, the urban drainage system can no longer meet the original design requirements, resulting in traffic jams and even paralysis and post a threat to urban safety. Therefore, it provides a necessary foundation for urban drainage planning and design to accurately assess the capacity of the drainage system and correctly simulate the transport effect of drainage network and the carrying capacity of drainage facilities. This study adopts InfoWorks Integrated Catchment Management (ICM) to present the two combined sewer drainage systems in Yangpu District, Shanghai (China). The model can assist the design of the drainage system. Model calibration is performed based on the historical rainfall events. The calibrated model is used for the assessment of the outlet drainage and pipe loads for the storm scenario currently existing or possibly occurring in the future. The study found that the simulation and analysis results of the drainage system model were reliable. They could fully reflect the service performance of the drainage system in the study area and provide decision-making support for regional flood control and transformation of pipeline network. PMID:26022395

  11. Charting pipeline paths : GIS/GPS application zooms into the 21. century

    The Global Positioning System (GPS) was originally developed by the US Defence Department as a navigational tool. Today, portable receivers make it possible for one to determine their precise coordinates on any place on earth in a matter of seconds. GPS technology uses orbiting satellites to pinpoint locations based on the distance and speed of transmission signals. Pipeline professionals use the receivers to locate faults, corrosion damage and cathodic protection flaws. GPS technology is the only accurate alternative to physically measuring pipelines. All the data collected is generally transferred into a geographical information system (GIS) and transposed onto a graphic representation of the pipeline. Details such as coating quality, pipeline composition, surface conditions and landowner status are recorded. Calgary-based Golder Associates Ltd., has developed a computer simulation that incorporates elements extracted from a GIS database. 3 figs

  12. An integrated multi−period planning of the production and transportation of multiple petroleum products in a single pipeline system

    Alberto Herrán

    2011-01-01

    Full Text Available A multiproduct pipeline provides an economic way to transport large volumes of refined petroleum products over long distances. In such a pipeline, different products are pumped back−to−back without any separation device between them. The sequence and lengths of such pumping runs must be carefully selected in order to meet market demands while minimizing pipeline operational costs and satisfying several constraints. The production planning and scheduling of the products at the refinery must also be synchronized with the transportation in order to avoid the usage of the system at some peak−hour time intervals. In this paper, we propose a multi−period mixed integer nonlinear programming (MINLP model for an optimal planning and scheduling of the production and transportation of multiple petroleum products from a refinery plant connected to several depots through a single pipeline system. The objective of this work is to generalize the mixed integer linear programming (MILP formulation proposed by Cafaro and Cerdá (2004, Computers and Chemical Engineering where only a single planning period was considered and the production planning and scheduling was not part of the decision process. Numerical examples show how the use of a single period model for a given time period may lead to infeasible solutions when it is used for the upcoming periods. These examples also show how integrating production planning with the transportation and the use of a multi−period model may result in a cost saving compared to using a single−period model for each period, independently.

  13. Failure Analysis on Field Joint Coatings of the West-East Gas Pipeline%西气东输一线埋地管道补口材料失效分析

    李玲杰; 韩文礼; 徐忠苹

    2014-01-01

    The West-East pipeline in China was constructed earlier this century and its field joint coatings adopted the typical 3-layer structure,“epoxy primer+heat-melting adhesive+radiation cross-linked polyethylene heat shrinkable sleeve”. Based on excavation tests on field joints of the pipelines that served above 10 years,the failure mode was discussed and main reasons of field joint coating failure were found,which include poor construction quality and adhesive degradation in long term service. Through compassion of various field joint repairing materials and structures,the study recommended a“visco-elastic tape+outer layer”composite structure as the first choice of field joint rehabilitation for buried pipelines.%西气东输一线管道补口一般采用“环氧底漆+热熔胶+辐射交联聚乙烯”的3层结构热收缩带补口方法。通过对西气东输一线管道已服役10年以上补口进行开挖检测,评价了管道补口的失效形式,发现补口失效的原因主要是由于热收缩带补口防腐层在使用环境中的失效和施工质量较差导致的。通过多种补口修复方式对比,建议将施工便利、性能稳定的“粘弹体胶带+外护带”复合结构作为在役埋地管道补口防腐层修复的首选结构。

  14. Pentek metal coating removal system: Baseline report; Greenbook (chapter)

    The Pentek coating removal technology was tested and is being evaluated at Florida International University (FIU) as a baseline technology. In conjunction with FIU's evaluation of efficiency and cost, this report covers evaluation conducted for safety and health issues. It is a commercially available technology and has been used for various projects at locations throughout the country. The Pentek coating removal system consisted of the ROTO-PEEN Scaler, CORNER-CUTTER reg-sign, and VAC-PAC reg-sign. They are designed to remove coatings from steel, concrete, brick, and wood. The Scaler uses 3M Roto Peen tungsten carbide cutters while the CORNER-CUTTER reg-sign uses solid needles for descaling activities. These hand tools are used with the VAC-PAC reg-sign vacuum system to capture dust and debris as removal of the coating takes place. The safety and health evaluation during the testing demonstration focused on two main areas of exposure: dust and noise. Dust exposure minimal, but noise exposure was significant. Further testing for each exposure is recommended because of the environment where the testing demonstration took place. It is feasible that the dust and noise levels will be higher in an enclosed operating environment of different construction. In addition, other areas of concern found were arm-hand vibration, whole-body, ergonomics, heat stress, tripping hazards, electrical hazards, machine guarding, and lockout/tagout

  15. ETV Program Report: Coatings for Wastewater Collection Systems - Protective Liner Systems, Inc., Epoxy Mastic, PLS-614

    The Protective Liner Systems International, Inc. Epoxy Mastic PLS-614 coating used for wastewater collection system rehabilitation was evaluated by EPA’s Environmental Technology Verification Program under laboratory conditions at the Center for Innovative Grouting Material and T...

  16. Slurry pipeline technology: an overview

    Chapman, Jay P. [Pipeline Systems Incorporated (PSI), Belo Horizonte, MG (Brazil); Lima, Rafael; Pinto, Daniel; Vidal, Alisson [Ausenco do Brasil Engenharia Ltda., Nova Lima, MG (Brazil). PSI Div.

    2009-12-19

    Slurry pipelines represent an economical and environmentally friendly transportation means for many solid materials. This paper provides an over-view of the technology, its evolution and current Brazilian activity. Mineral resources are increasingly moving farther away from ports, processing plants and end use points, and slurry pipelines are an important mode of solids transport. Application guidelines are discussed. State-of-the-Art technical solutions such as pipeline system simulation, pipe materials, pumps, valves, automation, telecommunications, and construction techniques that have made the technology successful are presented. A discussion of where long distant slurry pipelines fit in a picture that also includes thickened and paste materials pipe lining is included. (author)

  17. On the modelling and the analysis of two-phase flow instabilities in pipeline-riser systems; Modelisation et analyse des instabilites d'ecoulements diphasiques dans les conduites petrolieres du type pipeline-riser

    Zakarian, E.

    2000-03-10

    Recent estimations predict that over half the remaining offshore oil and gas reserves are located in deep water and marginal fields. For such reserves, economic recovery methods are required. Then, multiphase flows are transported within pipelines and separated on treatment platforms built in shallow water or processed in onshore facilities. Unfortunately, hydrodynamic instabilities may occur whenever gas and liquid flow in a pipeline, generating serious operating problems. This dissertation presents a new way to model two-phase flows in pipelines such as pipeline-riser systems. Equations are algebraic and differential. Their smoothness depends on the closure laws of the problem such as slip or friction laws. Smooth forms of these closure laws are presented for the first time in this dissertation. Therefore, a mathematical analysis of our model fits into a classical frame: a linear analysis leads to an analytical expression of the boundary between stable and unstable flows. A nonlinear analysis provides for the first time, the bifurcation curves of gas-liquid flows in pipe-riser systems, locally round their stability boundary. (author)

  18. Preparation Process and Characteristics Analysis of Ni-Al System Intermetallic Compound Coatings

    SUNHong-fei; WANGCan-ming; WANDian-mao; JINTao; SONGQiang

    2004-01-01

    Ni-Al system intermetallic compound coatings were acquired on the substrates of Nickel base superalloy by thermal spray accompanied with metallurgy and diffusion process. The main phases in the coatings are NiA1 and Ni3Al and the microstructure of the coatings are dense. The coatings bond well with the substrates and show excellent characteristics of oxidation-resistance at temperature as high as 1300~C. The coatings have been applied successfully in industry.

  19. Preparation Process and Characteristics Analysis of Ni-Al System Intermetallic Compound Coatings

    SUN Hong-fei; WANG Can-ming; WAN Dian-mao; JIN Tao; SONG Qiang

    2004-01-01

    Ni-Al system intermetallic compound coatings were acquired on the substrates of Nickel base superalloy by thermal spray accompanied with metallurgy and diffusion process. The main phases in the coatings are NiAl and Ni3Al and the microstructure of the coatings are dense. The coatings bond well with the substrates and show excellent characteristics of oxidation-resistance at temperature as high as 1300℃. The coatings have been applied successfully in industry.

  20. Decision Analysis Framework for Risk Management of Crude Oil Pipeline System

    Dawotola, A.W.; Van Gelder, P.H.A.J.M.; Vrijling, J.K.

    2011-01-01

    A model is constructed for risk management of crude pipeline subject to rupture on the basis of a methodology that incorporates structured expert judgment and analytic hierarchy process (AHP). The risk model calculates frequency of failure and their probable consequences for different segments of cr

  1. Synthesis and mechanical properties of CrMoCxN1-x coatings deposited by a hybrid coating system

    Quaternary CrMoCxN1-x coatings were deposited on steel substrates (AISI D2) and Si wafers by a hybrid coating system combining an arc-ion plating technique and a dc reactive magnetron sputtering technique using Cr and Mo targets in an Ar/N2/CH4 gaseous mixture. The carbon content of CrMoCxN1-x coatings was linearly increased with increasing CH4/(CH4+N2) gas flow rate ratio. The maximum hardness of 44 GPa was obtained from the CrMoCxN1-x coatings containing a carbon content of x=0.33 with a residual stress of -4.4 GPa. The average friction coefficient of Cr-Mo-N coatings was 0.42, and it is decreased to 0.31 after applying CrMoCxN1-x coatings. This result was caused by the formation of a carbon-rich transfer layer that acted as a solid lubricant to reduce contact between the coating surface and steel ball. The microstructure of the coatings was investigated by x-ray diffraction, scanning electron microscopy, and x-ray photoelectron spectroscopy. In this work, the microstructure and mechanical properties of the CrMoCxN1-x coatings were systematically investigated with the instrumental analyses

  2. REALTIME MONITORING OF PIPELINES FOR THIRD-PARTY CONTACT

    Gary L. Burkhardt; Alred E. Crouch

    2005-04-01

    Third-party contact with pipelines (typically caused by contact with a digging or drilling device) can result in mechanical damage to the pipe, in addition to coating damage that can initiate corrosion. Because this type of damage often goes unreported and can lead to eventual catastrophic failure of the pipe, a reliable, cost-effective method is needed for monitoring and reporting third-party contact events. The impressed alternating cycle current (IACC) pipeline monitoring method consists of impressing electrical signals on the pipe by generating a time-varying voltage between the pipe and the soil at periodic locations where pipeline access is available. The signal voltage between the pipe and ground is monitored continuously at receiving stations located some distance away. Third-party contact to the pipe that breaks through the coating changes the signal received at the receiving stations. In this project, the IACC monitoring method is being developed, tested, and demonstrated. Work performed to date includes (1) a technology assessment, (2) development of an IACC model to predict performance and assist with selection of signal operating parameters, (3) Investigation of potential interactions with cathodic protection systems, and (4) experimental measurements on buried pipe at a test site as well as on an operating pipeline. Initial results showed that IACC signals could be successfully propagated over a distance of 3.5 miles, and that simulated contact can be detected up to a distance of 0.7 mile. Unexpected results were that the electrical impedance from the operating pipelines to the soil was very low and, therefore, the changes in impedance and signal resulting from third-party contact were unexpectedly low. Future work will involve further refinement of the method to resolve the issues with small signal change and additional testing on operating pipelines.

  3. Thermal Management Coating As Thermal Protection System for Space Transportation System

    Kaul, Raj; Stuckey, C. Irvin

    2003-01-01

    This paper presents viewgraphs on the development of a non-ablative thermal management coating used as the thermal protection system material for space shuttle rocket boosters and other launch vehicles. The topics include: 1) Coating Study; 2) Aerothermal Testing; 3) Preconditioning Environments; 4) Test Observations; 5) Lightning Strike Test Panel; 6) Test Panel After Impact Testing; 7) Thermal Testing; and 8) Mechanical Testing.

  4. Design Thought of Intelligence Pipeline Data Acquisition System%智能化管道数据采集系统设计思路初探

    唐大为; 朱静

    2015-01-01

    Based on the information standards of the data of oil and gas transmission pipeline, according to the standardized data encoding system and the data structure and data edition method regulated by the data dictionary, through the basic data of whole life cycle of gathering pipeline, intelligent pipeline data acquisition system is input to the pipeline integrity database. Data integration, visualization pipeline data model and comprehensive information collection are the application system to implement the integrated data acquisition of the pipeline full life cycle, the basic tools to implement the structured data integration using and unstructured data storage of the pipeline and the important parts of intelligent pipeline management system.%智能化管道数据采集系统基于油气长输管道的数据信息化标准,按照统一规范的数据编码体系,根据数据字典规定的数据结构和数据采录方法,通过采集管道全生命周期的基础数据,录入管道完整性数据库,经数据集成、利用形成可视化的管道数据模型和综合信息集合,是实现管道全生命周期内综合数据采集的应用系统,是实现管道结构化数据集成展示利用、非结构化数据存储的基础性工具,是智能化管道管理系统的重要组成部分。

  5. New application technology for 'in situ' pipeline protection using pigging techniques

    Pretorius, Louis Charles [Corrocoat SA (PTY) Ltd., Durban (South Africa)

    2005-07-01

    Pigging of long pipelines is a technique for in situ (field) coating, creating seamless internal structural linings. Originally developed for cleaning pipes, the system was adapted to apply internal anti-corrosion protection to pipes using a thin epoxy layer, which had some problems in weld coverage, stress cracking, poor cold weather curing and the inability to fill pitting corrosion metal loss. New coating materials, revised application methods and modified pigging equipment have made it possible to apply in situ liquid film coatings up to 1 mm thick, as an internal corrosion barrier to pipes, in a single application (similar to continuous screeding) resulting in a bonded 'GRP pipe within a steel pipe'. The method can be used for new projects on fully welded pipe lines avoiding coating problems associated with flange joints and/or couplings, or for refurbishment of old pipelines, varying from 150-900 mm diameter, up to 12 km long. Pipes can be buried, submerged, continuously welded or flanged. Many different pipes, such as oil platform to shore based pipelines, can all be treated using this method. Thick film polymer pigging techniques create new possibilities for Engineers to extend the life of pipeline systems, with significant cost savings compared to replacement pipe. (author)

  6. Rehabilitation of underwater pipeline with liner; Reabilitacao de aqueduto submarino com liner: multiplas vantagens e aplicacoes

    Aquino, Roberto S.; Oliveira, Jose N. de; Urtiga, Rogerio L.; Witt, R. [PETROBRAS S.A., Rio de Janeiro, RJ (Brazil)

    2008-07-01

    The system of water injection in XAREU oil production field has an water pipeline sizing 4'' of diameter, between the offshore platform PXA-1 and another PXA-2, that it transfers 165 m{sup 3}/d of salt water for pressurization of the reservoir through the injection well Xareu-23. This water pipeline always presented high degree of corrosion needing frequently installation of cramps to eliminate leakages. After evaluating the costs we conclude that the more attractive it would be the installation of a liner than the launching of a new water pipeline. For the installation of a new water pipeline we would need the approval of IBAMA and of a great number of resources for the substitution of that pipeline. In spite of treating of an unpublished service between two offshore platforms we chose for the installation of a liner, because we had a great technological domain in this service in onshore oil production facilities with many pipelines recovered with this technique. We had to revise all of the procedures so that there was not any surprise to make unfeasible this service. The installation of the system liner, consisted of an internal coating 'in situ' through the insert of plastic tubes(high density polyethylene-HDPE), that it forms a barrier between the pipeline and the transported fluid. (author)

  7. Degradation and Failure Characteristics of NPP Containment Protective Coating Systems

    Nuclear power plants (NPPs) must ensure that the emergency core cooling system (ECCS) or safety-related containment spray system (CSS) remains capable of performing its design safety function throughout the life of the plant. This requires ensuring that long-term core cooling can be maintained following a postulated loss-of-coolant accident (LOCA). Adequate safety operation can be impaired if the protective coatings which have been applied to the concrete and steel structures within the primary containment fail, producing transportable debris which could then accumulate on BWR ECCS suction strainers or PWR ECCS sump debris screens located within the containment. This document will present the data collected during the investigation of coating specimens from plants

  8. Leadership Pipeline

    Elmholdt, Claus Westergård

    2013-01-01

    I artiklen undersøges det empiriske grundlag for Leader- ship Pipeline. Først beskrives Leadership Pipeline modellen om le- delsesbaner og skilleveje i opadgående transitioner mellem orga- nisatoriske ledelsesniveauer (Freedman, 1998; Charan, Drotter and Noel, 2001). Dernæst sættes fokus på det...... forholdet mellem kontinuitet- og diskontinuitet i ledel- seskompetencer på tværs af organisatoriske niveauer præsenteres og diskuteres. Afslutningsvis diskuteres begrænsningerne i en kompetencebaseret tilgang til Leadership Pipeline, og det foreslås, at succesfuld ledelse i ligeså høj grad afhænger af...

  9. Health Monitoring for Coated Steel Belts in an Elevator System

    Yimei Mao; Zuoying Huang; Guiyun Tian; Hui Zhao; Huaming Lei

    2012-01-01

    This paper presents a method of health monitoring for coated steel belts in an elevator system by measuring the electrical resistance of the ropes embedded in the belt. A model on resistance change caused by fretting wear and stress fatigue has been established. Temperature and reciprocating cycles are also taken into consideration when determining the potential strength degradation of the belts. It is proved by experiments that the method could effectively estimate the health degradation of ...

  10. Coatings and Surface Treatments for Reusable Entry Systems

    Johnson, Sylvia M.

    2016-01-01

    This talk outlines work in coatings for TPS done at NASA Ames. coatings and surface treatments on reusable TPS are critical for controlling the behavior of the materials. coatings discussed include RCG, TUFI and HETC. TUFROc is also discussed.