Sample records for reduce reuse recycle

  1. Reduce, reuse and recycle

    Afrika, M


    Full Text Available The adoption of the internationally accepted waste management hierarchy (Sakai et al, 1996) into South African policy has changed the focus from “end of pipe” waste management towards waste minimisation (reuse, recycling and cleaner production...

  2. Reduce, reuse, recycle, for robust cluster state generation

    Horsman, Clare; Munro, William J; Kendon, Vivien M


    Efficient generation of cluster states is crucial for engineering large-scale measurement-based quantum computers. Hybrid matter-optical systems offer a robust, scalable path to this goal. Such systems have an ancilla which acts as a bus connecting the qubits. We show that by generating smaller cluster "Lego blocks", reusing one ancilla per block, the cluster can be produced with maximal efficiency, requiring less than half the operations compared with no bus reuse. Our results are general for all ancilla-based computational schemes; we describe it in detail for the qubus system. By reducing the time required to prepare sections of the cluster, bus reuse more than doubles the size of the computational workspace that can be used before decoherence effects dominate.

  3. Solid Waste Educational Resources and Activities: Let's Reduce, Reuse, and Recycle. [CD-ROM].

    Environmental Protection Agency, Washington, DC. Solid Waste and Emergency Response.

    This contains games, activities, publications, and resources for students and teachers on how to reduce, reuse, recycle, and properly manage waste. It also contains a screen saver featuring runners-up from the Earth Day 2000 art contest. Activities and games include titles such as "Planet Protectors,""Recycle City,""Trash…

  4. Reduce, reuse, and recycle: developmental evolution of trait diversification.

    Preston, Jill C; Hileman, Lena C; Cubas, Pilar


    A major focus of evolutionary developmental (evo-devo) studies is to determine the genetic basis of variation in organismal form and function, both of which are fundamental to biological diversification. Pioneering work on metazoan and flowering plant systems has revealed conserved sets of genes that underlie the bauplan of organisms derived from a common ancestor. However, the extent to which variation in the developmental genetic toolkit mirrors variation at the phenotypic level is an active area of research. Here we explore evidence from the angiosperm evo-devo literature supporting the frugal use of genes and genetic pathways in the evolution of developmental patterning. In particular, these examples highlight the importance of genetic pleiotropy in different developmental modules, thus reducing the number of genes required in growth and development, and the reuse of particular genes in the parallel evolution of ecologically important traits.

  5. Exploring Reduce, Recycle and Reuse (3Rs) Awareness, Practice among Oil and Gas Workers and its Influence on Their Productivity

    Mas Anom Abd Rashid; Mohd Noor Azman Othman; Saidatul Shahida Rashid; Mohamad Bilal Ali


      One of the approaches to reduce waste generated is reduce, recycle and reuse (3R) method. The reduction in waste generated or increase in recycling rates reflects the success of both the government and voluntary public participation...

  6. An experimental school prototype: Integrating 3rs (reduce, reuse & recycle) concept into architectural design

    Kong Seng Yeap; Sreenivasaiah Purushothama Rao


    The authors conducted a design project to examine the use of school as an ecological learning hub for children. Specifically, this study explores the ecological innovations that transform physical environment into three-dimensional textbooks for environmental education. A series of design workshops were carried out to gain interdisciplinary input for ecological school design. The findings suggest to integrate the concept of 3Rs (Reduce, Reuse & Recycle) into the physical environment. As a res...

  7. Applying the three R's: Reduce, reuse, and recycle in the chemical industry.

    Mostafa, Mohamed K; Peters, Robert W


    Pollution prevention (P2) assessment was conducted by applying the three R's, reduce, reuse, and recycle, in a chemical industry for the purpose of reducing the amount of wastewater generated, reusing paint wastewater in the manufacture of cement bricks, recycling cooling water, and improving water usage efficiency. The results of this study showed that the annual wastewater flow generated from the paint manufacturing can be reduced from 1,100 m(3) to 488.4 m(3) (44.4% reduction) when a high-pressure hose is used. Two mixtures were prepared. The first mixture (A) contains cement, coarse aggregate, fine aggregate, Addicrete BVF, and clean water. The second mixture (B) contains the same components used in the first mixture, except that paint wastewater was used instead of the clean water. The prepared samples were tested for water absorption, toxicity, reactivity, compressive strength, ignitability, and corrosion. The tests results indicated that using paint wastewater in the manufacture of the cement bricks improved the mechanical properties of the bricks. The toxicity test results showed that the metals concentration in the bricks did not exceed the U.S. EPA limits. This company achieved the goal of zero liquid discharge (ZLD), especially after recycling 2,800 m(3) of cooling water. The total annual saving could reach $42,570 with a payback period of 41 days. This research focused on improving the water usage efficiency, reducing the quantity of wastewater generated, and potentially reusing wastewater in the manufacture of cement bricks. Reusing paint wastewater in the manufacture of the bricks prevents the hazardous pollutants in the wastewater (calcium carbonate, styrene acrylic resins, colored pigments, and titanium dioxide) from entering and polluting the surface water and the environment. We think that this paper will help to find the most efficient and cost-effective way to manage paint wastewater and conserve fresh water resources. We also believe that this

  8. An experimental school prototype: Integrating 3rs (reduce, reuse & recycle concept into architectural design

    Kong Seng Yeap


    Full Text Available The authors conducted a design project to examine the use of school as an ecological learning hub for children. Specifically, this study explores the ecological innovations that transform physical environment into three-dimensional textbooks for environmental education. A series of design workshops were carried out to gain interdisciplinary input for ecological school design. The findings suggest to integrate the concept of 3Rs (Reduce, Reuse & Recycle into the physical environment. As a result, an experimental school prototype is developed. It represents a series of recommendations that are rendered by novel ideas through the amalgamation of architecture, ecology and education. These findings promote the development of sustainable and interactive learning spaces through cross-disciplinary investigations in school architecture. Designers and practitioners interested in educational facilities design would find this article useful.

  9. Incinerate, recycle, or wash and reuse

    Hubbe, M. A.


    Full Text Available What is the best way to minimize the environmental impact of using a product such as paper? Three debating teams were formed within a university class. One team advocated increased recycling of paper. Another team pointed to evidence showing reduced environmental impact and lower net CO2 emissions if the paper is incinerated rather than recycled. A third team advocated the replacement of paper by items such as porcelain plates and video screens, cutting costs and reducing waste by multiple reuse.

  10. Reuse and recycling - reverse logistics opportunities

    Kopicki, R.; Berg, M.J.; Legg, L.


    This book is intended to serve as a managerial guide for planning and implementing waste reduction programs. It is based on the premise that proactive management of environmental issues is becoming vital to corporate success, and that these issues are creating new roles and opportunities for logistic professionals. Examined in detail are nonhazardous waste reduction activities; reuse and recycling activities; and source reduction. The book is based on in-depth interviews with seventeen firms and several trade associations acknowledged to be leaders in waste reduction efforts. Topics discussed include adapting inbound supply chains to use more recycled goods; minimizing packaging waste; reverse distribution capabilities for taking back products and packaging; and the use of third party services for recycling, reuse, and source reduction activities. Included are two case analyses of progressive firms like E.I. Dupont Nemours and Home Depot and their waste reduction efforts.

  11. Dyebath reuse saves money and reduces pollution

    Bergenthal, J.; Eapen, J.; Tawa, A.; Tincher, W.


    The article discusses an evaluation of the potential for wastewater recycle or reuse in textile finishing mills. Over a dozen recycle technologies were evaluated in six separate mills. Results of these preliminary studies showed that most of the recycle technologies were technically feasible, but only a few were cost effective: synthetic size recovery and reuse, caustic recovery and reuse, direct wastewater reuse (e.g., countercurrent washing), and direct dyebath reuse. The last-mentioned was singled out for further study because it was seen as having several advantages: low capital cost for implementation, substantial processing cost savings, significant environmental benefits, and the potential for widespread use in the industry. It is estimated that about half of all textile dyeing is performed by batch operations, including most knit fabric, hosiery, and yarn, along with substantial amounts of carpet and some woven fabric. Dyebath reuse technology was first developed by the Georgia Institute of Technology about 10 years ago, but few mills have adopted it to date.

  12. Foundry Wastes Reuse and Recycling in Concrete Production

    Silvia Fiore


    Full Text Available The industrial process of a cast iron foundry plant located in the North of Italy was analyzed in order to determine the amount and kind of produced wastes. The main fractions are core and moulding sands, muds and powders from dust abatement plants, furnace and ladle slags, and exhaust lime, making about 750-800 t/d of residues for a production of about 800 t/d of globular and grey cast iron. All wastes were sampled and characterized by means of particle-size distribution and chemical analyses to evaluate the best reuse and recycling solutions. On the grounds of the gathered results, the residues may be divided in three categories according to the particle-size dimensions: below 0.1 mm, between 0.1 and 0.6 mm and above 0.6 mm. The fraction above 0.6 mm, mainly made of metallic iron, may be reused in the furnaces. The fraction between 0.1 mm and 0.6 mm may be reused in cores production, after a regeneration treatment. The fraction between 0.1 and 0.025 mm may be recycled as raw material for the concrete industry, and the below 0.025 mm fraction may be reused in green moulding operations. An economic evaluation of the proposed reuse and recycling solutions was performed.

  13. Beneficial reuse `96: The fourth annual conference on the recycle and reuse of radioactive scrap metal



    From October 22-24, 1996 the University of Tennessee`s Energy, Environment and Resources Center and the Oak Ridge National Laboratory`s Center for Risk Management cosponsored Beneficial Reuse `96: The Fourth Annual Conference on the Recycle and Reuse of Radioactive Materials. Along with the traditional focus on radioactive scrap metals, this year`s conference included a wide range of topics pertaining to naturally occurring radioactive materials (NORM), and contaminated concrete reuse applications. As with previous Beneficial Reuse conferences, the primary goal of this year`s conference was to bring together stakeholder representatives for presentations, panel sessions and workshops on significant waste minimization issues surrounding the recycle and reuse of contaminated metals and other materials. A wide range of industry, government and public stakeholder groups participated in this year`s conference. An international presence from Canada, Germany and Korea helped to make Beneficial Reuse `96 a well-rounded affair. Selected papers have been processed separately for inclusion in the Energy Science and Technology Database.

  14. Reuse and recycling of secondary effluents in refineries employing advanced multi-barrier systems.

    Lahnsteiner, J; Mittal, R


    In this paper the reclamation and reuse of municipal secondary effluents, as well as the reclamation and recycling of refinery secondary effluents, are technically and economically evaluated. It is shown that both practices are feasible and sustainable, and that the reclamation costs depend largely on specific circumstances such as legal requirements, price policy, reuse application, raw water composition, etc. The reclaimed water is reused, or respectively recycled, as boiler make-up. Therefore both reclamation plants employ advanced multi-barrier systems including ultra-filtration and reverse osmosis. The employed processes have shown excellent performance with regard to the removal of critical parameters such as silica. For example, this parameter was reduced from 13 mg/l in the raw water to 7 μg/l in the boiler make-up.

  15. Analysis on 3RWB model (Reduce, reuse, recycle, and waste bank) in comprehensive waste management toward community-based zero waste

    Affandy, Nur Azizah; Isnaini, Enik; Laksono, Arif Budi


    Waste management becomes a serious issue in Indonesia. Significantly, waste production in Lamongan Regency is increasing in linear with the growth of population and current people activities, creating a gap between waste production and waste management. It is a critical problem that should be solved immediately. As a reaction to the issue, the Government of Lamongan Regency has enacted a new policy regarding waste management through a program named Lamongan Green and Clean (LGC). From the collected data, it showed that the "wet waste" or "organic waste" was approximately 63% of total domestic waste. With such condition, it can be predicted that the trashes will decompose quite quickly. From the observation, it was discovered that the generated waste was approximately 0.25 kg/person/day. Meanwhile, the number of population in Tumenggungan Village, Lamongan (data obtained from Monograph in Lamongan district, 2012) was 4651 people. Thus, it can be estimated the total waste in Lamongan was approximately 0.25 kg/person/day x 4651 characters = 930 kg/day. Within 3RWB Model, several stages have to be conducted. In the planning stage, the promotion of self-awareness among the communities in selecting and managing waste due to their interest in a potential benefit, is done. It indicated that community's awareness of waste management waste grew significantly. Meanwhile in socialization stage, each village staff, environmental expert, and policymaker should bear significant role in disseminating the awareness among the people. In the implementation phase, waste management with 3RWB model is promoted by applying it among of the community, starting from selection, waste management, until recycled products sale through the waste bank. In evaluation stage, the village managers, environmental expert, and waste managers are expected to regularly supervise and evaluate the whole activity of the waste management.

  16. Organic waste reclamation, recycling and re-use in integrated fish ...

    Organic waste reclamation, recycling and re-use in integrated fish farming in the Niger Delta. ... The purpose of this paper is to create awareness on the significance of ... In this system, fish production remains the most important activity.

  17. A company's commitment to waste reduction, recycling, and reuse.

    Lowenstein, R; Bushman, B


    Charles Heiman would be proud to see his vision being carried on and that Standard Textile is not only doing well, but also doing good. As an industry leader, Standard Textile has incorporated the entire cradle-to-grave concept in product creation. As a result, Standard Textile can compete in tomorrow's markets because the end user will mandate an environmentally sound product or process when alternatives are available. As a society, we are faced with some tough decisions about our environment and the world we live in. A very positive step all health care facilities can take for our future and our children's future is to employ a reusable and recyclable system. Switching from disposable to reusable textiles dramatically reduces the amount of solid waste but does so without using excessive water because of state-of-the-art recycling facilities now available. It also can offer the user better performance of the products they need to use. The answer is simple enough--investment in reusable and recyclable systems is in everybody's interest.

  18. A proposal for improving sustainability practice through the implementations of reuse and recycle technique in Malaysian construction industry

    Osman, Wan Nadzri; Nawi, Mohd Nasrun Mohd; Saad, Rohaizah; Anuar, Herman Shah; Ibrahim, Siti Halipah


    Construction and demolition waste is often seen as the major contributor to the solid waste stream that is going to landfill, hence, making it the area of focus for improvement. In the construction industry, reuse and recycle principles have been promoted in order to reduce waste and protect the environment. Construction and demolition waste including demolished concrete, bricks and masonry, wood and other materials such as dry wall, glass, insulation, roofing, wire, pipe, rock and soil constitute a significant component of the total waste. Without proper reuse and recycle policies, these construction and demolition wastes would quickly fill all the remaining landfill space, which has already been growing in scarce around this region. Based on the feedback received, on average, a third of respondents said they currently have a lotto benefit from the use of reduce and reuse. In addition, they also agreed that the existing policies help and support the min carrying out the reduce and reuse practices. Respondents also agreed that other stakeholders in the construction industry currently have an excellent awareness in term of implementation of the reduce and reuse in their practices.

  19. Reuse Recycler: High Intensity Proton Stacking at Fermilab

    Adamson, P. [Fermilab


    After a successful career as an antiproton storage and cooling ring, Recycler has been converted to a high intensity proton stacker for the Main Injector. We discuss the commissioning and operation of the Recycler in this new role, and the progress towards the 700 kW design goal.

  20. Recycled Water Reuse Permit Renewal Application for the Central Facilities Area Sewage Treatment Plant

    Lewis, Mike [Idaho National Lab. (INL), Idaho Falls, ID (United States)


    This renewal application for a Recycled Water Reuse Permit is being submitted in accordance with the Idaho Administrative Procedures Act 58.01.17 “Recycled Water Rules” and the Municipal Wastewater Reuse Permit LA-000141-03 for continuing the operation of the Central Facilities Area Sewage Treatment Plant located at the Idaho National Laboratory. The permit expires March 16, 2015. The permit requires a renewal application to be submitted six months prior to the expiration date of the existing permit. For the Central Facilities Area Sewage Treatment Plant, the renewal application must be submitted by September 16, 2014. The information in this application is consistent with the Idaho Department of Environmental Quality’s Guidance for Reclamation and Reuse of Municipal and Industrial Wastewater and discussions with Idaho Department of Environmental Quality personnel.

  1. Dioxins, Furans and PCBs in Recycled Water for Indirect Potable Reuse

    Clemencia Rodriguez


    Full Text Available An assessment of potential health impacts of dioxin and dioxin-like compounds in recycled water for indirect potable reuse was conducted. Toxic equivalency factors (TEFs for 2,3,7,8-substituted polychlorinated dibenzo-p-dioxins (PCDD and dibenzofurans (PCDFs and dioxin-like polychlorinated biphenyls (PCBs congeners have been developed by the World Health Organization to simplify the risk assessment of complex mixtures. Samples of secondary treated wastewater in Perth, Australia were examined pre-and post-tertiary treatment in one full-scale and one pilot water reclamation plant. Risk quotients (RQs were estimated by expressing the middle-bound toxic equivalent (TEQ and the upper-bound TEQ concentration in each sampling point as a function of the estimated health target value. The results indicate that reverse osmosis (RO is able to reduce the concentration of PCDD, PCDF and dioxin-like PCBs and produce water of high quality (RQ after RO=0.15. No increased human health risk from dioxin and dioxin-like compounds is anticipated if highly treated recycled water is used to augment drinking water supplies in Perth. Recommendations for a verification monitoring program are offered.

  2. Dioxins, furans and PCBs in recycled water for indirect potable reuse.

    Rodriguez, Clemencia; Cook, Angus; Devine, Brian; Van Buynder, Paul; Lugg, Richard; Linge, Kathryn; Weinstein, Philip


    An assessment of potential health impacts of dioxin and dioxin-like compounds in recycled water for indirect potable reuse was conducted. Toxic equivalency factors (TEFs) for 2,3,7,8-substituted polychlorinated dibenzo-p-dioxins (PCDD) and dibenzofurans (PCDFs) and dioxin-like polychlorinated biphenyls (PCBs) congeners have been developed by the World Health Organization to simplify the risk assessment of complex mixtures. Samples of secondary treated wastewater in Perth, Australia were examined pre-and post-tertiary treatment in one full-scale and one pilot water reclamation plant. Risk quotients (RQs) were estimated by expressing the middle-bound toxic equivalent (TEQ) and the upper-bound TEQ concentration in each sampling point as a function of the estimated health target value. The results indicate that reverse osmosis (RO) is able to reduce the concentration of PCDD, PCDF and dioxin-like PCBs and produce water of high quality (RQ after RO=0.15). No increased human health risk from dioxin and dioxin-like compounds is anticipated if highly treated recycled water is used to augment drinking water supplies in Perth. Recommendations for a verification monitoring program are offered.

  3. Reuse and recycle--considering the soil below constructions.

    Suer, Pascal; Wik, Ola; Erlandsson, Martin


    The European Construction Products Regulation provides a life cycle based framework for the environmental assessment of construction products. Harmonised European standards for the assessment of the release of dangerous substances and for declaration of environmental performance are in progress. Risk based limit values for the protection of soil and groundwater below construction works will still bet set nationally. In this paper we review the possibilities to expand the ongoing harmonisation to include risk assessment and life cycle assessment (LCA). Based on reviews of national European limit value models (LMVs) for assessment of release to soil and groundwater, two areas for harmonisation emerge: 1- The toxicological criteria. Toxicological endpoints to protect human health and environment are similar, and data from the same toxicological data sets are used to establish acceptance criteria. 2- The emission part of LMVs. We extracted six generic construction works for granular materials. These encompass the most common choices and span the different release scenarios applied. Harmonised emission models would also facilitate LCA and environmental product declaration (EPD). The immission or transport part of the LVMs is less promising for harmonisation. Locating the acceptance criteria point of compliance close to the construction works is advantageous from many aspects and would facilitate harmonisation of assessments. We have identified two different strategies to include recycling in the assessments: 1- Tiered procedure where assessment and declaration of performance are made for the intended primary use of the product only and renewed assessments are made whenever the construction works are demolished and the product is recovered. 2- Scenario based procedure where future recycling scenarios, into new products and construction works, are forecasted. In this case the initial assessment and declaration of environmental performance of a construction product is

  4. The Reuse of Greywater Recycling For High Rise Buildings in Kuwait Country

    Ahmed Ibrahim Abd Alaziz


    Full Text Available The domestic grey water recycling and reuse in high rise buildings has been discussed and detailed. It is estimated that the usable domestic grey water resource could amount from to 35% to 39% of the total domestic demand. A summary of worldwide review of recycling and reuse of grey water is reported. In many cases, light grey water from bathroom sinks, baths and showers can be directly reused in garden irrigation. Dark grey water from laundry, dishwashers and, in some instances, kitchen sinks should be subjected to simple treatment to be reused in non-potable contexts such as toilet flushing and garden irrigation. In all cases, disinfection by chlorine or ozone is important if there is a possibility contact with human exists. Therefore, there are verity of system designs from simple to sophisticated systems according to the quality and of the grey water and the type of reuse. Examples of these systems, filters and storage tanks are presented and explained. Black water from the toilet is allowed to flow directly to the septic tank or to the sewer of municipal wastewater system.

  5. From collision to collaboration - Integrating informal recyclers and re-use operators in Europe: A review.

    Scheinberg, Anne; Nesić, Jelena; Savain, Rachel; Luppi, Pietro; Sinnott, Portia; Petean, Flaviu; Pop, Flaviu


    The European Union hosts some of the world's most developed waste management systems and an ambitious policy commitment to the circular economy. The existence of informal recycling and re-use activities in Europe has been vigorously denied until quite recently, and remains a very challenging subject for the European solid waste management sector, as well as for European government and private institutions. In countries ranging from Malta to Macedonia and from France to Turkey, informal recyclers excluded from legal recycling niches increasingly collide with formalised and controlled European Union approaches to urban waste management, packaging recovery schemes, formal re-use enterprises, and extended producer responsibility systems.This review focuses on the period from 2004 through the first half of 2016. The 78 sources on European (and neighbouring) informal recycling and re-use are contextualised with global sources and experience. The articles focus on informal recovery in and at the borders of the European Union, document the conflicts and collisions, and elaborate some constructive approaches towards legalisation, integration, and reconciliation. The overarching recommendation, to locate the issue of informal recovery and integration in the framework of the European circular economy package, is supported by four specific pillars of an integration strategy: Documentation, legalisation, occupational and enterprise recognition, and preparation for structural integration.

  6. An evaluation of concrete recycling and reuse practices

    Nakhjiri, K.S.; MacKinney, J.


    Nuclear facilities operated by the Department of Energy (DOE), Department of Defense (DOD), and NRC licensees contain many concrete structures that are contaminated with radioactivity. Dismantling these structures will result in significant quantities of waste materials, both contaminated and uncontaminated. Bartlett estimates the total volume of waste from demolition of concrete structures to be on the order of 4 million cubic meters, but that only 20,000 cubic meters would be contaminated with radioactivity. Other studies suggest that as much as 5% of the concrete in these facilities would be contaminated with radioactivity. While the actual quantity of contaminated material should be fixed with greater precision, the fact that so much uncontaminated concrete exists (over 95% of the total 4 million cubic meters) suggests that a program that recycles concrete could produce substantial savings for both government agencies (DOE, DOD) and private companies (NRC licensees). This paper presents a fundamental discussion of (1) various methods of processing concrete, (2) demolition methods, especially those compatible with recycling efforts, and (3) state-of-the-art concrete dismantlement techniques.

  7. Resource Recovery and Reuse: Recycled Magnetically Separable Iron-based Catalysts for Phosphate Recovery and Arsenic Removal

    Environmentally friendly processes that aid human and environmental health include recovering, recycling, and reusing limited natural resources and waste materials. In this study, we re-used Iron-rich solid waste materials from water treatment plants to synthesize magnetic iron-o...

  8. Resrad-recycle: a computer model for analyzing radiation exposures resulting from recycling radioactively contaminated scrap metals or reusing radioactively surface-contaminated materials and equipment.

    Cheng, Jing-Jy; Kassas, Bassel; Yu, Charley; Amish, John; LePoire, Dave; Chen, Shih-Yew; Williams, W A; Wallo, A; Peterson, H


    RESRAD-RECYCLE is a computer code designed by Argonne National Laboratory (ANL) to be used in making decisions about the disposition of radioactively contaminated materials and scrap metals. It implements a pathway analysis methodology to evaluate potential radiation exposures resulting from the recycling of contaminated scrap metals and the reuse of surface-contaminated materials and equipment. For modeling purposes, it divides the entire metal recycling process into six steps: (1) scrap delivery, (2) scrap melting, (3) ingot delivery, (4) product fabrication, (5) product distribution, and (6) use of finished product. RESRAD-RECYCLE considers the reuse of surface-contaminated materials in their original forms. It contains representative exposure scenarios for each recycling step and the reuse process; users can also specify scenarios if desired. The model calculates individual and collective population doses for workers involved in the recycling process and for the public using the finished products. The results are then used to derive clearance levels for the contaminated materials on the basis of input dose restrictions. The model accounts for radiological decay and ingrowth, dilution and partitioning during melting, and distribution of refined metal in the various finished products, as well as the varying densities and geometries of the radiation sources during the recycling process. A complete material balance in terms of mass and radioactivity during the recycling process can also be implemented. In an international validation study, the radiation doses calculated by RESRAD-RECYCLE were shown to agree fairly well with actual measurement data.

  9. Reusing recycled fibers in high-value fiber-reinforced polymer composites: Improving bending strength by surface cleaning

    Shi, Jian; Bao, Limin; Kobayashi, Ryouhei; Kato, Jun; Kemmochi, Kiyoshi


    Glass fiber-reinforced polymer (GFRP) composites and carbon fiber-reinforced polymer (CFRP) composites were recycled using superheated steam. Recycled glass fibers (R-GFs) and recycled carbon fibers (R-CFs) were surface treated for reuse as fiber-reinforced polymer (FRP) composites. Treated R-GFs (TR-GFs) and treated R-CFs (TR-CFs) were characterized by scanning electron microscopy (SEM) and remanufactured by vacuum-assisted resin transfer molding (VARTM). Most residual resin impurities were ...

  10. Reusing recycled fibers in high-value fiber-reinforced polymer composites: Improving bending strength by surface cleaning

    Shi, Jian; Bao, Limin; Kobayashi, Ryouhei; Kato, Jun; Kemmochi, Kiyoshi


    Glass fiber-reinforced polymer (GFRP) composites and carbon fiber-reinforced polymer (CFRP) composites were recycled using superheated steam. Recycled glass fibers (R-GFs) and recycled carbon fibers (R-CFs) were surface treated for reuse as fiber-reinforced polymer (FRP) composites. Treated R-GFs (TR-GFs) and treated R-CFs (TR-CFs) were characterized by scanning electron microscopy (SEM) and remanufactured by vacuum-assisted resin transfer molding (VARTM). Most residual resin impurities were ...

  11. Recycling and reuse of chosen kinds of waste materials in a building industry

    Ferek, B.; Harasymiuk, J.; Tyburski, J.


    The article describes the current state of knowledge and practice in Poland concerning recycling as a method of reuse of chosen groups of waste materials in building industry. The recycling of building scraps is imposed by environmental, economic and technological premises. The issue of usage of sewage residues is becoming a problem of ever -growing gravity as the presence of the increasing number of pernicious contaminants makes their utilization for agricultural purposes more and more limited. The strategies of using waste materials on Polish building sites were analyzed. The analysis of predispositions to salvage for a group of traditional materials, such as: timber, steel, building debris, insulation materials, plastics, and on the example of new materials, such as: artificial light aggregates made by appropriate mixing of siliceous aggregates, glass refuses and sewage residues in order to obtain a commodity which is apt for economic usage also was made in the article. The issue of recycling of waste materials originating from building operations will be presented in the context of the binding home and EU legal regulations. It was proved that the level of recycling of building wastes in Poland is considerably different from one which is achieved in the solid market economies, both in quantity and in assortment. The method of neutralization of building refuses in connection with special waste materials, which are sewage sludge that is presented in the article may be one of the alternative solutions to the problem of recycling of these wastes not only on the Polish scale.

  12. Kajian penerapan recycle, reuse dan recovery untuk proses produksi kulit web blue pada industri penyamakan kulit

    Prayitno Prayitno


    Full Text Available Leather tanning industries are industries that process skin to produce finish leather product by using many stages of process in which for every stage of process will generate a huge amount either liquid or solid waste. If waste are not to be treated properly, it will cause environmental pollution. Implementation of 3R programs i.e. recycle, reuse and recovery will give impact on minimizing of waste problem. In leather tanning industries for producing wet blue leather however, 3R programs have to be implemented in processes of desalting, washing liquor, flesh and fat, chrome liquor and chrome-tanned waste. In implementing 3 R the waste generated can be either reused, recycled or recoveried as follow salt as swelling agent preventing in pickling process; washing liquor waste as washing liquor for dirt washing; flesh and fat as raw material for producing tallow, soap, fertilizer and livestock fodder; chrome liquor waste as chrome agent for chrome tanning and chrome-tanned waste as filler for producing material building or livestock fodder as protein sources.

  13. Optimisation of petroleum refinery water network systems retrofit incorporating reuse, regeneration and recycle strategies

    Khor, Cheng Seong; Shah, Nilay [Imperial College London (United Kingdom); Mahadzir, Shuhaimi [Universiti Teknologi Petronas (Malaysia); Elkamel, Ali [University of Waterloo (Canada)


    Increasingly strict environmental regulations have given rise to higher requirements for operating efficiency and optimization and water has become a vital resource in the refining process and allied industries. Due to this high demand for water, plants may be exposed to supply interruptions and shortages in the future. Major concerns in the petroleum refining industry are the scarcity of fresh water supply and increasingly rigid rules on wastewater discharge, which have resulted from concerns over the environmental impact. This paper presents the efforts made to develop an optimization framework for design of petroleum refinery water network systems and retrofitting that incorporates reuse, regeneration, and recycling strategies. This framework includes the complementary advantage of water pinch analysis (WPA). Water minimization strategies were incorporated as first postulates in a superstructural representation that includes all feasible flow-sheet options for taking advantage of water reuse, regeneration and recycling opportunities. Additionally, a post-optimization analysis was carried out to evaluate the repeated treatment processes required to identify the most efficient retrofit option.

  14. Electronic waste recovery in Finland: Consumers' perceptions towards recycling and re-use of mobile phones.

    Ylä-Mella, Jenni; Keiski, Riitta L; Pongrácz, Eva


    This paper examines consumers' awareness and perceptions towards mobile phone recycling and re-use. The results are based on a survey conducted in the city of Oulu, Finland, and analysed in the theoretical framework based on the theories of planned behaviour (TPB) and value-belief-norm (VBN). The findings indicate that consumers' awareness of the importance and existence of waste recovery system is high; however, awareness has not translated to recycling behaviour. The survey reveals that 55% of respondents have two or more unused mobile phones at homes. The more phones stored at homes, the more often reasons 'I don't know where to return' and/or 'have not got to do it yet' were mentioned. This indicates that proximity and the convenience of current waste management system are inadequate in promoting the return of small waste electrical and electronic equipment (WEEE). To facilitate re-use, and the highest level of recovery, consumers will need to be committed to return end-of-use electronics to WEEE collection centres without delays. Further, the supply and demand of refurbished mobile phones do not meet at this moment in Finland due to consumer's storing habits versus expectations of recent features under guarantee and unrealistic low prizes. The study also points out that, in order to change current storing habits of consumers, there is an explicit need for more information and awareness on mobile phone collection in Finland, especially on regarding retailers' take-back.

  15. [Pilot study on the treatment of ultrafiltration for laundry wastewater recycling and reuse].

    Wang, Jin; Jiang, Jin-Hui


    A pilot study of the treatment for laundry wastewater recycling and reuse on the spot was carried out by ultrafiltration (UF) with different membrane material of PAN, PS and PP. According to the analysis of membrane fouling combined with UF effluent quality, PAN membrane was superior to the others. It removed the turbidity, suspended solid, fat oil and grease effectively, but kept anionic surfactant (LAS) to a certain degree in the UF effluent which is beneficial to recycling and reuse. By correlation analysis, it was found the high COD concentration of effluent was caused by LAS remained. The whiteness and softness of cotton cloth washed by UF effluent for a long-term was not different with that washed by tap water. The removal of bacteria and E. coli by UF membrane was not very high, and so UF effluent was disinfected by ultraviolet (UV) further. As the dosage of UV was not less than 3 750 J/m2, the microbial level reached the China national standard of drinking water. The optimal UF operation condition is to backwash two minutes every thirty minutes' filtration. Adopted alkali liquor of pH 11 to 13 to carry out chemical cleaning, the membrane flux was recovered completely.

  16. Reuse dan Reduce dalam Penciptaan Aksesoris Multifungsi Berbahan Tekstil

    Alfi Luviani


    Full Text Available Penciptaan aksesoris multifungsi dipandang penting di tengah gempuran produkaksesoris mass production dari China yang menyerbu konsumen Indonesia. Aksesorismultifungsi berbahan tekstil dengan konsep reuse dan reduce berdasarkan ide ecofriendly ini mencoba menawarkan sebuah alternatif dalam suatu produk aksesoris,serta turut serta berpartisipasi dalam ide karya seni yang ramah lingkungan.Metode yang dipakai dalam pembuatannya adalah eksplorasi, eksperimen, danmelalui proses perwujudan. Penciptaan karya aksesoris multifungsi ini diharapkandapat memperkaya dunia aksesoris di Indonesia, sehingga masyarakat tidak lagimemandang aksesoris sebagai sebuah pernak-pernik yang tidak penting, melainkanmampu menjadi ide yang kritis tentang produk yang ramah lingkungan sertamemberikan kontribusi positif bagi perkembangan dunia perhiasan dan fashion diIndonesia. Reuse and Reduce on Creating Multifunctional Textile Accessories. The creationof multifunctional accesorries is important in order to encounter the mass productionof Chinese accessories coming to Indonesia in the recent years. These multifunctionalaccessories made of textile with the concept of reuse and reduce which are based on theeco-friendly idea try to offer a different perspective of accessory products and to participatein creating the eco-friendly products as well. The research methods which have been usedare the exploration, experimentation, and materialization. This creation is expected to beable to enrich the accessories world in Indonesia, so the community would not perceiveaccessories merely as something unimportant anymore, yet it could be an object thatbrings a critical idea about the eco-friendly artworks/products. Also, it can give a positivecontribution for the development of fashion and jewelry worlds in Indonesia.

  17. Recycling and reuse of waste from electricity distribution networks as reinforcement agents in polymeric composites.

    Zimmermann, Matheus V G; Zattera, Ademir J


    Of the waste generated from electricity distribution networks, wooden posts treated with chromated copper arsenate (CCA) and ceramic insulators make up the majority of the materials for which no effective recycling scheme has been developed. This study aims to recycle and reuse this waste as reinforcement elements in polymer composites and hybrid composites, promoting an ecologically and economically viable alternative for the disposal of this waste. The CCA wooden posts were cut, crushed and recycled via acid leaching using 0.2 and 0.4N H2SO4 in triplicate at 70°C and then washed and dried. The ceramic insulators were fragmented in a hydraulic press and separated by particle size using a vibrating sieve. The composites were mixed in a twin-screw extruder and injected into the test specimens, which were subjected to physical, mechanical, thermal and morphological characterization. The results indicate that the acid treatment most effective for removing heavy metals in the wood utilizes 0.4NH2SO4. However, the composites made from wood treated with 0.2NH2SO4 exhibited the highest mechanical properties of the composites, whereas the use of a ceramic insulator produces composites with better thermal stability and impact strength. This study is part of the research and development project of ANEEL (Agência Nacional de Energia Elétrica) and funded by CPFL (Companhia Paulista de Força e Luz). Copyright © 2013 Elsevier Ltd. All rights reserved.

  18. Effective utilization of waste water through recycling, reuse, and remediation for sustainable agriculture.

    Raman, Rajamani; Krishnamoorthy, Renga


    Water is vital for human, animal, and plant life. Water is one of the most essential inputs for the production of crops. Plants need it in enormous quantities continuously during their life. The role of water is felt everywhere; its scarcity causes droughts and famines, its excess causes floods and deluge. During the next two decades, water will increasingly be considered a critical resource for the future survival of the arid and semiarid countries. The requirement of water is increasing day by day due to intensive agriculture practices, urbanization, population growth, industrialization, domestic use, and other uses. On the other hand, the availability of water resources is declining and the existing water is not enough to meet the needs. To overcome this problem, one available solution is utilization of waste water by using recycling, reuse, and remediation process.

  19. A State of the Art on the Technology for Recycling and Reuse of the Decommissioning Concrete Wastes

    Jung, Chung Hun; Choi, Wang Kyu; Min, Byung Youn; Oh, Won Zin; Lee, Kun Woo [Korea Atomic Energy Research Institute, Daejeon (Korea, Republic of)


    This report describes the reduction and recycling technology of decommissioning concrete waste. Decontamination and decommissioning (D and D) becomes one of the most important nuclear markets especially in the developed countries including USA, UK and France where lots of the retired nuclear facilities have been waiting for decommissioning. In our country the KAERI has been carrying out the decommissioning of the retired TRIGA MARK II and III research reactors and an uranium conversion plant as the first national decommissioning project since 1998. One of the most important areas of the decommissioning is a management of a huge amount of a decommissioning waste the cost of which is more than half of the total decommissioning cost. Therefore reduction in decommissioning waste by a reuse or a recycle is an important subject of decommissioning technology development in the world. Recently much countries pay attention to recycle the large amount of concrete dismantling waste resulted from both a nuclear and a non nuclear industries. In our country, much attention was taken in a recycle of concrete dismantling waste as a concrete aggregate, but a little success has been resulted due to the disadvantages such as a weakness of hardness and surface mortar contamination. A recycle in nuclear industry and a self disposal of the radioactively contaminated concrete wastes are main directions of concrete wastes resulted from a nuclear facility decommissioning. In this report it was reviewed the state of art of the related technologies for a reduction and a recycle of concrete wastes from a nuclear decommissioning in the country and abroad. Prior to recycle and reuse in the nuclear sector, however, the regulatory criteria for the recycle and reuse of concrete waste should be established in parallel with the development of the recycling technology.

  20. Review of Reusing Technology of Recycled PET Bottles%PET瓶回收再生技术进展



    对废PET瓶进行回收再生,不但可以减少环境污染,而且还可以节省资源.文章介绍了废PET瓶常用的物理回收方法和化学回收方法,简述了回收再生过程中PET瓶的分选与分离、清洗、切片破碎技术,还对回收PET瓶片的直接利用技术、无熔造粒技术、反应挤出增黏以及PET高分子合金制造技术等进展进行了概述,指出了废PET瓶回收再生领域的发展方向.%The reusing of recycled PET bottles can not only decrease environment pollution but also bring resource saving, The technology progress of recycling and reuse of PET bottles during the recent years was reviewed, including the physical reclaim and the chemical reclaim, the techniques of selection and separation, crushing and washing, slicing up and breaking up, the techniques of direct reuse, the techniques of non-melting regulating, the techniques of chain extension in reactive extruder and and the techniques of PET alloy manufacture. Besides, the development way of recycled and reuse technique in the recycled PET bottles field was put forward.

  1. Radiation dose assessments to support evaluations of radiological control levels for recycling or reuse of materials and equipment

    Hill, R.L.; Aaberg, R.L.; Baker, D.A.; Kennedy, W.E. Jr.


    Pacific Northwest Laboratory is providing Environmental Protection Support and Assistance to the USDOE, Office of Environmental Guidance. Air, Water, and Radiation Division. As part of this effort, PNL is collecting data and conducting technical evaluations to support DOE analyses of the feasibility of developing radiological control levels for recycling or reuse of metals, concrete, or equipment containing residual radioactive contamination from DOE operations. The radiological control levels will be risk-based, as developed through a radiation exposure scenario and pathway analysis. The analysis will include evaluation of relevant radionuclides, potential mechanisms of exposure, and both health and non-health-related impacts. The main objective of this report is to develop a methodology for establishing radiological control levels for recycle or reuse. This report provides the results of the radiation exposure scenario and pathway analyses for 42 key radionuclides generated during DOE operations that may be contained in metals or equipment considered for either recycling or reuse. The scenarios and information developed by the IAEA. Application of Exemption Principles to the Recycle and Reuse of Materials from Nuclear Facilities, are used as the initial basis for this study. The analyses were performed for both selected worker populations at metal smelters and for the public downwind of a smelter facility. Doses to the public downwind were estimated using the US (EPA) CAP88-PC computer code with generic data on atmospheric dispersion and population density. Potential non-health-related effects of residual activity on electronics and on film were also analyzed.

  2. Biological treatment: potential reusing of recycled plastics from grenhouses; La depuracin biolgica: posible reutilizacin de plsticos reciclados procedentes de invernaderos

    Zamorano, M.; Hontaria, E. [Universidad de Granada (Spain)


    The purpose of this study was to investigate recycled plastic used to cover crops as support beds in submerged biofilters for the purification of residual water, which also permit the re-used of recycled or waste products and the clarification and improvement of the effluent flow from the filter. The recycled plastic shows that the efficiency was 88% COD-removal and 84% SS-removal, without secondary clarification. The functioning of the system with this material has not improved 100%, this study has opened up a new field of investigation that will perfect the system and materials. (Author) 10 refs.

  3. Re-design, re-use and recycle of temporary houses

    Arslan, Hakan [Department of Construction, Faculty of Technical Education, University of Abant Izzet Baysal, Duzce 81100 (Turkey)


    Disasters are recurring to global problems, which results in homelessness. The affected region had economical, environmental and social problems as well. In relief and reconstruction phases, the need for integrated management appeared in order to use the national sources actively and productively. Especially housing implementations had an important role for future development of the affected region. For accelerating the reconstruction of the region and forming a sustainable community, which maintains itself socially, environmentally and economically over time; energy usage for construction should be kept to a minimum. Past research in Turkey shows that the cost of temporary houses (to be used as the short term shelter) had a ratio of 10-15% of the total expenses of whole construction activity. For saving money and protecting the environment and conserving scarce resources, the affected region must consider the option of temporary houses to meet their short and long-term need during the reconstruction process. After the end of usage, temporary houses should be able to be re-used for the same or new function. This study is a test of re-design and re-use of a temporary housing site; by using recycled materials, minimum energy and voluntary participation so that this site can finally become a permanent housing site. (author)

  4. Reduce, Reuse, Recycle: Planetary Nebulae as Green Galactic Citizens

    Kwitter, K B


    We review gas-phase abundances in PNe and describe their dual utility as archives of original progenitor metallicity via the alpha elements, as well as sources of processed material from nucleosynthesis during the star's evolution, i.e., C, N, and s-process elements. We describe the analysis of PN spectra to derive abundances and discuss the discrepancies that arise from different choices at each step. Abundance results for the Milky Way and Magellanic Clouds from various groups of investigators are presented; the observational results are compared with theoretical predictions of AGB stellar yields. Finally, we suggest areas where more work is needed to improve our abilities to determine abundances in PNe.

  5. Reduce, Reuse, Recycle: Good Earth and the Electronics Dilemma

    Descy, Don E.


    According to the National Safety Council, 63 million computers became obsolete in 2005 alone, and it is estimated that the total number in storage in 2007 numbers upwards of 500 million computers (Earth 911, 2007). This article describes the steps that one should take before disposing of an obsolete computer. First and foremost, all personal…

  6. Saving Energy and Reducing Emission When Recycling Acetone during the Production of Soy Phospholipid

    Liu Daicheng; Wang Yan; Tao Yinhua


    Acetone, which is volatile, flammable, toxic, expen-sive and causing serious air pollution, is often used as extracting solvent in the production of powdery soy phospholipid. Recycling and reusing acetone is the key of reducing the cost of production. Therefore, saving energy and reducing emission when recycling acetone are the most important technologies during the production of phospholipid. On the basis of the productivity of powdery phospholipid being 2.4 t every day, 43.2 t acetone is reused every 8 h and the total volume of acetone gas emitted is 450.75 m3 (about 901.5 kg). According to the current price of acetone, the lost money is about 7212 yuan RMB.

  7. ReStore: Reusing Results of MapReduce Jobs

    Elghandour, Iman


    Analyzing large scale data has emerged as an important activity for many organizations in the past few years. This large scale data analysis is facilitated by the MapReduce programming and execution model and its implementations, most notably Hadoop. Users of MapReduce often have analysis tasks that are too complex to express as individual MapReduce jobs. Instead, they use high-level query languages such as Pig, Hive, or Jaql to express their complex tasks. The compilers of these languages translate queries into workflows of MapReduce jobs. Each job in these workflows reads its input from the distributed file system used by the MapReduce system and produces output that is stored in this distributed file system and read as input by the next job in the workflow. The current practice is to delete these intermediate results from the distributed file system at the end of executing the workflow. One way to improve the performance of workflows of MapReduce jobs is to keep these intermediate results and reuse them fo...

  8. Slow pyrolysis enhances the recovery and reuse of phosphorus and reduces metal leaching from biosolids.

    Roberts, David A; Cole, Andrew J; Whelan, Anna; de Nys, Rocky; Paul, Nicholas A


    In this study, biochar is produced from biosolids with and without alum at a range of temperatures and simulated oxidative aging of the biochars is conducted to quantify the long-term leaching of P and metals. While biosolids containing alum had negligible amounts of plant-available P, after pyrolysis >90% of the P became immediately available for plant growth. When biosolids with no alum were converted into biochar there was a small increase in the availability of P but a larger pool was available after oxidation. Both of the biosolids leached significant amounts of metals after oxidation. In contrast, the biochars had a very low available metal content and this did not increase with oxidation, demonstrating a stable metal content. Pyrolysis is an effective waste management strategy for biosolids that can simultaneously reduce the leaching of metals and increase the efficiency of recycling of P for beneficial re-use.

  9. Waste Management Options for Long-Duration Space Missions: When to Reject, Reuse, or Recycle

    Linne, Diane L.; Palaszewski, Bryan A.; Gokoglu, Suleyman; Gallo, Christopher A.; Balasubramaniam, Ramaswamy; Hegde, Uday G.


    The amount of waste generated on long-duration space missions away from Earth orbit creates the daunting challenge of how to manage the waste through reuse, rejection, or recycle. The option to merely dispose of the solid waste through an airlock to space was studied for both Earth-moon libration point missions and crewed Mars missions. Although the unique dynamic characteristics of an orbit around L2 might allow some discarded waste to intersect the lunar surface before re-impacting the spacecraft, the large amount of waste needed to be managed and potential hazards associated with volatiles recondensing on the spacecraft surfaces make this option problematic. A second option evaluated is to process the waste into useful gases to be either vented to space or used in various propulsion systems. These propellants could then be used to provide the yearly station-keeping needs at an L2 orbit, or if processed into oxygen and methane propellants, could be used to augment science exploration by enabling lunar mini landers to the far side of the moon.

  10. 澳门污水资源再生利用%Sewage resources recycling and reuse in Macao

    张云; 崔树彬; 汪义杰; 陈晓宏


    介绍澳门水资源基本情况,分析澳门污水资源再生利用在节水、减污、降低供水成本、提高区域水资源安全等方面的价值,剖析污水资源再生利用在认识、土地、政策、管理、经验积累等方面的不利条件和政府积极推动、公众意识、新区建设等方面的有利因素,探讨澳门污水资源再生利用的用途、方式、处理工艺及水质标准、管理、价格、风险、规模等关键问题,提出澳门污水资源再生利用近期、中期和远期利用方案。%In this paper , we introduce the status of water resources in Macao , analyze the significance of sewage resources recycling , such as water conservation , pollution control, water supply cost reduction , and improvement of water security, and discuss the disadvantages in water resources recycling and reuse , lands, policy, management, and the accumulation of experience , as well as the advantages in active promotion by the government , public awareness , and new urban district construction .We point out the key problems of sewage resources recycling and reuse in Macao, which include the reuse purposes , methods, processing technologies and water quality standards , management, price, risk, and scale.We also propose short-term, medium-term, and long-term schemes for sewage resources recycling and reuse in Macao .

  11. A Study on the Waste Water Treatment Technology for Steel Industry: Recycle And Reuse.

    Sanjeev Kumar Sinha


    Full Text Available The steel industry is one of the most important and vital Industry of the present and the future. It is the asset of a nation. Steel plants use a tremendous amount of water for waste transfer, cooling and dust control. The steel plants have sintering mills, coke plants, blast furnaces, chemical byproducts and chemical processes, water cooled rolls, pumps, extrusion experiment, transfer lines for sludges and slurries. All these plants use a tremendous amount of water to cool the products and flush the impurities away from the finished stock. Wastewater is generated in huge quantity in steel industries. It contains many dissolved, undisclosed substances and chemicals in the wastewater. The steel industries produce wastewater and sludge during different industrial processes. The development of innovative technologies for treatment of wastewaters from steel industries is a matter of alarming concern for us. Although many research papers have been reported on wastewater pollution control studies, but a very few research work is carried out for treatment of wastewater of steel industries, especially in reference to development of design of industrial effluent Treatment Plants (ETP system. Another beneficial aspect of this research work will be recycling, reuse of water and sludge from steel industry The whole technologies for treating industrial wastewater can be divided into four categories: - Chemical, Physical, Biological and mathematical approaches. Physical treatment methods include sedimentation, Floatation , filtering , stripping, ion – exchange, adsorption and other processes that accomplish removal of dissolved and undisclosed substances without necessarily changing their chemical structure. The mathematical approaches are very useful and more realistic for developing a well operating cost–effective treatment system for industrial wastewater treatment.

  12. Hanford recycling

    Leonard, I.M.


    This paper is a study of the past and present recycling efforts on the Hanford site and options for future improvements in the recycling program. Until 1996, recycling goals were voluntarily set by the waste generators: this year, DOE has imposed goals for all its sites to accomplish by 1999. Hanford is presently meeting the voluntary site goals, but may not be able to meet all the new DOE goals without changes to the program. Most of these new DOE goals are recycling goals: * Reduce the generation of radioactive (low-level) waste from routine operations 50 percent through source reduction and recycling. * Reduce the generation of low-level mixed waste from routine operations 50 percent through source reduction and recycling. * Reduce the generation of hazardous waste from routine operations 50 percent through source reduction and recycling. * Recycle 33 percent of the sanitary waste from all operations. * Increase affirmative procurement of EPA-designated recycled items to 100 percent. The Hanford recycling program has made great strides-there has been a 98 percent increase in the amount of paper recycled since its inception in 1990. Hanford recycles paper, chemicals cardboard, tires, oil, batteries, rags, lead weights, fluorescent tubes, aerosol products, concrete, office furniture, computer software, drums, toner cartridges, and scrap metal. Many other items are recycled or reused by individual groups on a one time basis without a formal contract. Several contracts are closed-loop contracts which involve all parts of the recycle loop. Considerable savings are generated from recycling, and much more is possible with increased attention and improvements to this program. General methods for improving the recycling program to ensure that the new goals can be met are: a Contract and financial changes 0 Tracking database and methods improvements 0 Expanded recycling efforts. Specifically, the Hanford recycling program would be improved by: 0 Establishing one overall

  13. Reuse of materials and byproducts in construction waste minimization and recycling

    Richardson, Alan


    This book examines the reuse of materials and byproducts in the construction industry. It investigates the main building materials and their use. The book also offers an overview of new green design guides that will encourage best practice.

  14. 废旧纺织品的回收再利用%Recycling and reusing of waste textiles

    候春燕; 胡应模; 李梦灿; 刘权; 曾超


    In recent years, a rising number of textiles were discarded, most of which were buried or burned. If waste textiles were not timely recovered and reused, it wil result in tremendous resources waste and serious environmental pol ution. In this paper, the recycling status of waste textiles at domestic and overseas was analyzed and the four kinds of recycling method about waste textile recycling were summarized, namely energy recovery, physical recycling, mechanical recycling, chemical recycling. At the same time, the methods of several common polymer fiber, such as polyester, polyurethane, cotton fiber were introduced. And the future for waste textile field in China was forecasted potently.%近年来被丢弃的纺织品越来越多,其中大部分被掩埋或焚烧,造成巨大的资源浪费和严重的环境污染。阐述了国内外废旧纺织品的回收利用现状,综述了废旧纺织品回收利用的4种回收方法,即能量回收、物理回收、机械回收、化学回收。简要介绍了几种常见聚合物纤维,如聚酯、聚氨酯、棉纤维的回收方法,并对我国废旧纺织品行业的未来进行了展望分析。

  15. Recycling and Reusing Industry of Waste Textiles & Development Prospect%废旧纺织品的回收再利用与展望

    王中珍; 邢桂燕; 丁吉庆


    The present situation of waste textil was introduced. The method and process of recycl waste textiles recycling and reusing in the present e recycling and reusing industry at home and abroad ing technologies were discussed. The difficulties of stage of our country were analyzed. According to the present situation of textile industry in China, some suggestions on the recycling and reusing of waste textiles were given from the aspects of laws and regulations, organization, technical innovation, standard and quality, etc. The key technologies on the development of waste textiles recycling and reusing in our country were prospected.%文章介绍了国内外废旧纺织品的回收再利用现状,探讨了回收再利用的方法与工艺,分析了现阶段我国废旧纺织品回收再利用存在的困难,结合我国纺织工业的现状,从法律法规、组织机构、技术改造、标准质量等几方面提出了相应建议,并展望我国废旧纺织品发展的关键技术。

  16. Reuse of de-inking sludge from wastepaper recycling in cement mortar products.

    Yan, Shiqin; Sagoe-Crentsil, Kwesi; Shapiro, Gretta


    This paper presents results of an investigation into the use of de-inking sludge from a paper recycling mill as feedstock material in the manufacture of cement mortar products, including masonry blocks and mortar renders. Both physical and mechanical properties of mortar specimens containing various amounts of de-inking sludge were investigated. It was observed that the addition of de-inking sludge to cement mortar at a fixed water-to-cement ratio significantly reduced flow properties and increased setting time. Water absorption and volume of permeable voids of cement mortar increased with increased dosage of de-inking sludge, with a corresponding reduction of bulk density. The 91-day compressive strength of mortar samples with 2.5 wt% and 20 wt% de-inking sludge loadings retained 83% and 62% respectively of the reference mortar strength. The corresponding drying shrinkage increased by up to 160% compared to reference samples. However, a de-inking sludge loading of up to 2.5 wt% did not significantly alter measured physical and mechanical properties. The results demonstrate that despite the high moisture absorbance of de-inking sludge due to its organic matter and residual cellulose fibre content, it serves as a potential supplementary additive and its cellulosic content proving to be an active set retardant to cementitious masonry products.

  17. An Analysis of Regulatory Strategies for Recycling and Re-Use of Metals in Australia

    Wayne Gumley


    Full Text Available This article considers regulatory strategies that promote more efficient use of material inputs within the Australian economy, with particular focus on recycling and recovery of metals, drawing upon the concept of a “circular economy”. It briefly reviews the nature of regulation and trends in regulatory strategies within changing policy contexts, and then examines the regulatory framework applicable to the various phases in the life cycle of metals, ranging from extraction of minerals to processing and assimilation of metals into finished products, through to eventual disposal of products as waste. Discussion focuses upon the regulatory strategies applied in each phase and the changing roles of government and business operators within global distribution networks. It is concluded that the prevailing political agenda favoring deregulation and reduced taxation may be a major barrier to development of new styles of regulation and more effective use of taxation powers that is needed to support a more circular economy in metals. The implication for future research is the need to substantiate the outcomes of reflexive regulatory strategies with well-designed empirical studies.

  18. Water Reuse and Wastewater Recycling at U.S. Army Installations: Policy Implications


    a designated use (e.g., a golf course). The intent is to encourage water reuse, rainwater harvesting, rainfall sensor controls, and other techniques...gating agricultural plots or public access lands, i.e., property where the general public may enter, such as golf courses or parks. Where there are no...generally address only microbiological and environmental concerns. Health risks associated with both pathogenic micro-organisms and chemical

  19. Wastewater reuse

    Milan R. Radosavljević


    Full Text Available Water scarcity and water pollution are some of the crucial issues that must be addressed within local and global perspectives. One of the ways to reduce the impact of water scarcity  and to minimizine water pollution is to expand water and wastewater reuse. The local conditions including regulations, institutions, financial mechanisms, availability of local technology and stakeholder participation have a great influence on the decisions for wastewater reuse. The increasing awareness of food safety and the influence of the countries which import food are influencing policy makers and agriculturists to improve the standards of wastewater reuse in agriculture. The environmental awareness of consumers has been putting pressure on the producers (industries to opt for environmentally sound technologies including those which conserve water and reduce the level of pollution. It may be observed that we have to move forwards to implement strategies and plans for wastewater reuse. However, their success and sustainability will depend on political will, public awareness and active support from national and international agencies to create favorable    environment for the promotion of environmentally sustainable technologies. Wastewater treatment has a long history, especially in agriculture, but also in industry and households. Poor quality of wastewater can pose a significant risk to the health of farmers and users of agricultural products. The World Health Organization (WHO is working on a project for the reuse of wastewater in agriculture. To reduce effects of human activities to the minimum, it is necessary to provide such technical and technological solutions that would on the one hand ensure complying with  the existing regulations and legislation, and on the other hand provide economically viable systems as seen through investments and operating costs. The use of wastewater The practice of using wastewater varies from country to country. Its

  20. Reuse of the Reflective Light and the Recycle Heat Energy in Concentrated Photovoltaic System

    Hsin-Chien Chen


    Full Text Available A complex solar unit with microcrystalline silicon solar cells placed around the centered GaAs triple junction solar cell has been proposed and carried out. With the same illumination area and intensity, the total resultant power shows that the excess microcrystalline silicon solar cells increase the total output power by 13.2% by absorbing the reflective light from the surface of optical collimators. Furthermore, reusing the residual heat energy generated from the above-mentioned mechanism helps to increase the output power by around 14.1%. This mechanism provides a simple method to enhance the utility rate of concentrated photovoltaic (CPV system. Such concept can be further applied to the aerospace industry and the development of more efficient CPV solar energy applications.

  1. Study to Urban Wastewater Reuse and Water Resources Recycling%城市污水资源化与水资源循环利用研究

    刘洪彪; 武伟亚


    This paper analyzes the present situation of water resources shortage, and puts forward the concept of urban wastewater reuse strategies. For the purpose of effectively recycling water resources, the paper suggests a more concrete realization of wastewater reuse policy.%  分析了我国水资源匮乏的现状,提出了城市污水资源化的策略理念。为了实现水资源有效循环利用,提出了较为具体的实现污水资源化的政策路径与方法。

  2. Recycled water reuse permit renewal application for the materials and fuels complex industrial waste ditch and industrial waste pond

    Name, No


    This renewal application for the Industrial Wastewater Reuse Permit (IWRP) WRU-I-0160-01 at Idaho National Laboratory (INL), Materials and Fuels Complex (MFC) Industrial Waste Ditch (IWD) and Industrial Waste Pond (IWP) is being submitted to the State of Idaho, Department of Environmental Quality (DEQ). This application has been prepared in compliance with the requirements in IDAPA 58.01.17, Recycled Water Rules. Information in this application is consistent with the IDAPA 58.01.17 rules, pre-application meeting, and the Guidance for Reclamation and Reuse of Municipal and Industrial Wastewater (September 2007). This application is being submitted using much of the same information contained in the initial permit application, submitted in 2007, and modification, in 2012. There have been no significant changes to the information and operations covered in the existing IWRP. Summary of the monitoring results and operation activity that has occurred since the issuance of the WRP has been included. MFC has operated the IWP and IWD as regulated wastewater land treatment facilities in compliance with the IDAPA 58.01.17 regulations and the IWRP. Industrial wastewater, consisting primarily of continuous discharges of nonhazardous, nonradioactive, routinely discharged noncontact cooling water and steam condensate, periodic discharges of industrial wastewater from the MFC facility process holdup tanks, and precipitation runoff, are discharged to the IWP and IWD system from various MFC facilities. Wastewater goes to the IWP and IWD with a permitted annual flow of up to 17 million gallons/year. All requirements of the IWRP are being met. The Operations and Maintenance Manual for the Industrial Wastewater System will be updated to include any new requirements.

  3. Recycled Water Reuse Permit Renewal Application for the Materials and Fuels Complex Industrial Waste Ditch and Industrial Waste Pond

    No Name


    ABSTRACT This renewal application for the Industrial Wastewater Reuse Permit (IWRP) WRU-I-0160-01 at Idaho National Laboratory (INL), Materials and Fuels Complex (MFC) Industrial Waste Ditch (IWD) and Industrial Waste Pond (IWP) is being submitted to the State of Idaho, Department of Environmental Quality (DEQ). This application has been prepared in compliance with the requirements in IDAPA 58.01.17, Recycled Water Rules. Information in this application is consistent with the IDAPA 58.01.17 rules, pre-application meeting, and the Guidance for Reclamation and Reuse of Municipal and Industrial Wastewater (September 2007). This application is being submitted using much of the same information contained in the initial permit application, submitted in 2007, and modification, in 2012. There have been no significant changes to the information and operations covered in the existing IWRP. Summary of the monitoring results and operation activity that has occurred since the issuance of the WRP has been included. MFC has operated the IWP and IWD as regulated wastewater land treatment facilities in compliance with the IDAPA 58.01.17 regulations and the IWRP. Industrial wastewater, consisting primarily of continuous discharges of nonhazardous, nonradioactive, routinely discharged noncontact cooling water and steam condensate, periodic discharges of industrial wastewater from the MFC facility process holdup tanks, and precipitation runoff, are discharged to the IWP and IWD system from various MFC facilities. Wastewater goes to the IWP and IWD with a permitted annual flow of up to 17 million gallons/year. All requirements of the IWRP are being met. The Operations and Maintenance Manual for the Industrial Wastewater System will be updated to include any new requirements.

  4. Technical and environmental characterisation of recycled aggregate for reuse in bricks

    Sorlini Sabrina


    Full Text Available Waste mud coming from an aggregate washing plant was formerly used as filling material for a pond, aimed at the recovery of an abandoned quarry. Once completed the filling capacity of the pond, the need for identifying a possible reuse of mud produced by the plant arose in order to avoid landfill disposal. Therefore, mud has been geometrically, physically and chemically characterised for its recovery as construction material. A variety of tests was carried out on mud samples as required by EN technical specifications and by Italian environmental standards, focusing particularly on leaching behaviour. The tested material showed satisfactory physical and chemical properties and a release of pollutants below the limits set by the Italian code. Many mix-designs for the production of unfired bricks made of waste mud, sand and straw, stabilised and non-stabilised with lime, gypsum or cement, were developed. The bricks were tested in order to evaluate mechanical properties and leaching behaviour. Mud bricks provided remarkable compressive strength, even if not suitable for structural elements. The use as interior design to minimise humidity changes and to facilitate a thermal insulation is fostered, thus strengthening the so-called green building economy.

  5. A Design on Wastewater Recycling and Reuse in Iron and Steel Industries%钢铁行业污水回收利用基础自动化控制的设计与实现

    刘一臻; 于静


    文章以钢铁行业污水回收利用为系统设计目标,将钢铁企业的节水工作从水源、管网、生产工艺、污水处理和回用等多方面形成一个系统工程,将污水资源化,设计并完成提高企业废水重复利用率及减少污水排放的一个系统工程。%The paper describes the wastewater recyclingand reuse in iron and steel industries.The tschnological process of water treat-ment consists of a lot of links, such as water resource, pipe network, water treatment technology, sewagedisposal, water purification and discharge.It is a system engineering to improve wastewater recycling and reuse, and to reduce sewage discharge.

  6. Review of processes for the release of DOE real and non-real property for reuse and recycle

    Ranek, N.L.; Kamboj, S.; Hensley, J.; Chen, S.Y.; Blunt, D.


    This report summarizes the underlying historical and regulatory framework supporting the concept of authorizing release for restricted or unrestricted reuse or recycle of real and non-real U.S. Department of Energy (DOE) properties containing residual radioactive material. Basic radiation protection principles as recommended by the International Commission on Radiological Protection are reviewed, and international initiatives to investigate radiological clearance criteria are reported. Applicable requirements of the U.S. Nuclear Regulatory Commission, the Environmental Protection Agency, DOE, and the State of Washington are discussed. Several processes that have been developed for establishing cleanup and release criteria for real and non-real DOE property containing residual radioactive material are presented. Examples of DOE real property for which radiological cleanup criteria were established to support unrestricted release are provided. Properties discussed include Formerly Utilized Sites Remedial Action Project sites, Uranium Mill Tailings Remedial Action Project sites, the Shippingport decommissioning project, the south-middle and south-east vaults in the 317 area at Argonne National Laboratory, the Heavy Water Components Test Reactor at DOE`s Savannah River Site, the Experimental Boiling Water Reactor at Argonne National Laboratory, and the Weldon Spring site. Some examples of non-real property for which DOE sites have established criteria to support unrestricted release are also furnished. 10 figs., 4 tabs.

  7. Replace, reuse, recycle: improving the sustainable use of phosphorus by plants.

    Baker, Alison; Ceasar, S Antony; Palmer, Antony J; Paterson, Jaimie B; Qi, Wanjun; Muench, Stephen P; Baldwin, Stephen A


    The 'phosphorus problem' has recently received strong interest with two distinct strands of importance. The first is that too much phosphorus (P) is entering into waste water, creating a significant economic and ecological problem. Secondly, while agricultural demand for phosphate fertilizer is increasing to maintain crop yields, rock phosphate reserves are rapidly declining. Unravelling the mechanisms by which plants sense, respond to, and acquire phosphate can address both problems, allowing the development of crop plants that are more efficient at acquiring and using limited amounts of phosphate while at the same time improving the potential of plants and other photosynthetic organisms for nutrient recapture and recycling from waste water. In this review, we attempt to synthesize these important but often disparate parts of the debate in a holistic fashion, since solutions to such a complex problem require integrated and multidisciplinary approaches that address both P supply and demand. Rapid progress has been made recently in our understanding of local and systemic signalling mechanisms for phosphate, and of expression and regulation of membrane proteins that take phosphate up from the environment and transport it within the plant. We discuss the current state of understanding of such mechanisms involved in sensing and responding to phosphate stress. We also discuss approaches to improve the P-use efficiency of crop plants and future direction for sustainable use of P, including use of photosynthetic organisms for recapture of P from waste waters.

  8. Komunikasi Visual untuk Kampanye Gerakan 3R (Reduce-Reuce-Recycle di Bandung

    Devi Kurniawati Homan


    Full Text Available Bandung, which known as Flower City and Paris van Java, is a city tourism destination for domestic tourists and international tourists. Bandung becomes shopping and culinary travel destination. The consumption for plastic and garbage increases by the increase of tourists. Bandung suffers for garbage problem. To prevent it happens again to Bandung, it needs a campaign for garbage problem solution. It only takes three steps for decrease the garbage problem. The three steps are Reduce, Reuse, Recycle. Tourists can help to keep clean and comfort for Bandung environment. The campaign itself can be accessed in internet with smartphone, which is common for young generation. Information can easily spread and hope it becomes a good habit for Bandung tourists.

  9. Treatment of wastewater from a low-temperature carbonization process industry through biological and chemical oxidation processes for recycle/reuse: a case study.

    Biswas, R; Bagchi, S; Urewar, C; Gupta, D; Nandy, T


    Low-temperature carbonization (LTC) of coal generates highly complex wastewater warranting stringent treatment. Developing a techno-economically viable treatment facility for such wastewaters is a challenging task. The paper discusses a case study pertaining to an existing non-performing effluent treatment plant (ETP). The existing ETP comprising an ammonia stripper followed by a single stage biological oxidation was unable to treat 1,050 m(3)/d of effluent as per the stipulated discharge norms. The treated effluent from the existing ETP was characterized with high concentrations of ammonia (75-345 mg N/l), COD (313-1,422 mg/l) and cyanide (0.5-4 mg/l). Studies were undertaken to facilitate recycling/reuse of the treated effluent within the plant. A second stage biooxidation process was investigated at pilot scale for the treatment of the effluent from the ETP. This was further subjected to tertiary treatment with 0.5% dose of 4% hypochlorite which resulted in effluent with pH: 6.6-6.8, COD: 73-121 mg/l, and BOD(5):recycle and reuse. Thus, a modified treatment scheme comprising ammonia pre-stripping followed by two-stage biooxidation process and a chemical oxidation step with hypochlorite at tertiary stage was proposed for recycle/reuse of LTC wastewater.

  10. Factors Influencing Consumers’ Intention to Return the End of Life Electronic Products through Reverse Supply Chain Management for Reuse, Repair and Recycling

    Kamyar Kianpour


    Full Text Available Resource depletion, population growth and environmental problems force companies to collect their end of life (EOL products for reuse, recycle and refurbishment through reverse supply chain management (RSCM. Success in collecting the EOL products through RSCM depends on the customers’ participation intention. The objectives of this study are: (1 To examine the important factors influencing customers’ attitude to participate in RSCM; (2 To examine the important factors influencing customers’ subjective norm to participate in RSCM; (3 To examine the main factors influencing customers’ perceived behavioral control to participate in RSCM; (4 To examine the influence of attitude, subjective norms and perceived behavioral control on customers’ participation intention in RSCM. The Decomposed Theory of Planned Behaviour (DTPB has been chosen as the underpinning theory for this research. The research conducted employed the quantitative approach. Non-probability (convenience sampling method was used to determine the sample and data was collected using questionnaires. Partial Least Squares-Structural Equation Modeling (PLS-SEM technique was employed. A total of 800 questionnaires were distributed among customers of electronic products in Malaysia. Finally, the questionnaire was distributed among the customers in electronic retailer companies based on convenience sampling method. The empirical results confirm that consumers perception about the risk associated with EOL electronic products, consumers’ ecological knowledge and relative advantages associated with reuse, repair and recycling can influence the attitude of consumers to return the EOL products for reuse, repair and recycling to producer.

  11. The Dynamic Earth: Recycling Naturally!

    Goldston, M. Jenice; Allison, Elizabeth; Fowler, Lisa; Glaze, Amanda


    This article begins with a thought-provoking question: What do you think of when you hear the term "recycle?" Many think about paper, glass, aluminum cans, landfills, and reducing waste by reusing some of these materials. How many of us ever consider the way the systems of Earth dynamically recycle its materials? In the following…

  12. 染整加工的水热循环利用%Recycle and reuse of water and heat in textile wet processing

    于永彬; 张建祥; 陈明; 吕文泉


    Innovative techniques of source reduction, procedure control and recycling are used to realize water and heat balance instead of the backward conventional end-of-pipe treatment of pollution, including PVA recovery in desizing machine, alkali recovery in mercerizing machine, heat reuse in washing machine, heat reuse of high temperature exhausted gas in stenter and conduction oil furnace, and reuse of cooling, condensate and reclaimed water.With this reformation, 17 288 tons of steam,300 thousands m3 water and 180 thousand m3 natural gas can be saved per year, recycling utilization ratio of water can reach more than 80%.%采用以源头消减、过程控制和回收利用的技术方法,改变传统被动落后的末端治理污染控制手段.即退浆机回收PVA、丝光机回收液碱、水洗机回收余热、定形机和导热油炉高温烟气余热回收利用,以及冷却水、冷凝水回收和中水回用等.改造完成后可节约蒸汽17 288 t/年,节约用水30万m/年,节约天然气18万m/年,水的循环利用率80%以上.

  13. 废旧聚苯乙烯塑料再生再利用技术现状%Research on Techniques of Waste Polystyrene Plastics Recycling and Reusing

    邓亮; 徐海萍; 谢华清; 李志杰


    主要介绍了废旧聚苯乙烯塑料的回收再生、再利用技术现状,涵盖了在涂料、胶黏剂、化工产品、建筑材料等领域的再生应用,重点讨论了熔融法再生和用于生产仿木建材的关键技术。通过分析和比较不同的再生再利用工艺技术,期望对未来废旧聚苯乙烯塑料资源化的发展方向有一定的指导意义。%The recycling and reusing techniques of waste polystyrene plastic, including the polystyrene foamed plastics, were intro-duced in this paper. It included the current situation of making coating, adhesive, chemistry products, building materials and pyrolytic technique, and mainly discussed the key techniques of melt extrusion and making wood-like plastics. Especially, the performance of different techniques of recycling and reusing process were also analyzed and compared. And the future development direction of waste polystyrene plastics recycling had been looked to.

  14. Study on Treatment and Reusing of Wastewater of Recycled Fible Pulp Papermaking%再生纤维制浆造纸废水处理及回用



    This paper pointed out that the environment problem caused by the shortage of pulping and papermaking raw material and the pollution of papermaking wastewater were the main factors of current constraints to China ’s pulp and paper industry development .Waste paper is already a resource that can not be ignored .The design ,aimed at the wastewater of recycled fiber papermaking of Tianjin Guangjuyuan Paper Ltd .,put forward a daily wastewater treatment and reuse system with processing capacity of 7500 m3 .In this process ,we designed a reasonable processing method and calculated the structure size .And we carried out a simulation experiment in laboratory ,chose the best flocculant (PAC) and determined its optimum dosage of 600ppm ,analyzed the influence factors of pH ,stirring time , stirring speed ,the amount of PAM added .As the result ,when the pH=6 ,stirring time was 0 .5min ,stirring speed was 180rpm ,PAM accession for 20ppm achieved the best result .In this condition the original of treated wastewater was reduced to 45 .6c .u .,and turbidity reduced to 2 .17NTU ,which basically met the production demand and could be reused .In addition ,in order to get a part of clean water ,we designed the wastewater biological treatment by a UASB+SBR method on the 1200 m3/d treated wastewater .The COD removal rate was above 60% ,which met the water quality requirements and could be reused .%指出了制浆造纸原料的短缺和造纸废水对环境的污染问题是制约我国制浆造纸行业发展的最主要因素,废纸已成为一种不容忽视的资源。设计针对天津广聚源纸业有限公司再生纤维造纸废水,设计了日处理量10000 m3的废水处理及回用系统,确定了处理流程、计算了各部分构筑物的规格大小。并且进行了实验室模拟实验,选择了最佳絮凝剂(PAC)以及确定其最佳用量为500×10-6,对处理过程中pH值、搅动时间、搅动速度、PAM 加入量等影响因素进行了

  15. Interventions to reduce the bacterial load in recycled broiler litter.

    Vaz, C S L; Voss-Rech, D; de Avila, V S; Coldebella, A; Silva, V S


    Two experiments were undertaken to evaluate the bacterial load in recycled litter between broiler flocks following addition of quicklime (T1), windrowing (T2), shallow fermentation (T3), and control (no intervention, T4). The first experiment was developed in field conditions in which the broiler houses were accompanied by 6 consecutive flocks and the effect of the treatments was assessed on enterobacteria and aerobic mesophiles. The second experiment was conducted in an experimental broiler house with recycled litter for assessment of Salmonella Enteritidis phage type 4 (SE PT4). In the field study, T3 presented the best results in reducing enterobacteria in broiler litter in relation to the other treatments, with the highest reduction occurring in the first 3 flocks, tending to stabilization from the fourth flock onward for all the treatments assessed. From the third to sixth flocks, enterobacteria level at the end of the treatments (d 12) was lower than the average in the fresh litter, except in T4. All treatments reduced aerobic mesophiles throughout the flocks, where T2 showed the highest reduction. The percentage of dry matter in the broiler litter diminished in T4 and increased in T3 over the course of the flocks. In the second experiment, the drop in the SE PT4 level in the broiler litter first occurred in T2 and T3. However, all the treatments except for T4 eliminated SE PT4 within 12 d. The temperature of the broiler litter in T2 was higher in relation to the other treatments. The results show that litter treatment prior to reutilization by the successive broiler flock is required to reduce the level of residual bacteria. The fermentative treatments (T2 and T3) were found to be superior to the others in terms of reducing the bacterial load, with shallow fermentation standing out with the highest reduction of enterobacteria and equivalent SE PT4 elimination when compared to windrowing.

  16. An assessment and evaluation for recycle/reuse of contaminated process and metallurgical equipment at the DOE Rocky Flats Plant Site -- Building 865. Final report


    An economic analysis of the potential advantages of alternatives for recycling and reusing equipment now stored in Building 865 at the Rocky Flats Plant (RFP) in Colorado has been conducted. The inventory considered in this analysis consists primarily of metallurgical and process equipment used before January 1992, during development and production of nuclear weapons components at the site. The economic analysis consists of a thorough building inventory and cost comparisons for four equipment dispositions alternatives. The first is a baseline option of disposal at a Low Level Waste (LLW) landfill. The three alternatives investigated are metal recycling, reuse with the government sector, and release for unrestricted use. This report provides item-by-item estimates of value, disposal cost, and decontamination cost. The economic evaluation methods documented here, the simple cost comparisons presented, and the data provided as a supplement, should provide a foundation for D&D decisions for Building 865, as well as for similar D&D tasks at RFP and at other sites.

  17. Green Science: Revisiting Recycling

    Palliser, Janna


    Recycling has been around for a long time--people have reused materials and refashioned them into needed items for thousands of years. More recently, war efforts encouraged conservation and reuse of materials, and in the 1970s recycling got its official start when recycling centers were created. Now, curbside recycling programs and recycling…

  18. Constrained recycling: a framework to reduce landfilling in developing countries.

    Diaz, Ricardo; Otoma, Suehiro


    This article presents a model that integrates three branches of research: (i) economics of solid waste that assesses consumer's willingness to recycle and to pay for disposal; (ii) economics of solid waste that compares private and social costs of final disposal and recycling; and (iii) theories on personal attitudes and social influence. The model identifies two arenas where decisions are made: upstream arena, where residents are decision-makers, and downstream arena, where municipal authorities are decision-makers, and graphically proposes interactions between disposal and recycling, as well as the concept of 'constrained recycling' (an alternative to optimal recycling) to guide policy design. It finally concludes that formative instruments, such as environmental education and benchmarks, should be combined with economic instruments, such as subsidies, to move constraints on source separation and recycling in the context of developing countries.

  19. Evaluation of appropriate technologies for grey water treatments and reuses.

    Li, Fangyue; Wichmann, Knut; Otterpohl, Ralf


    As water is becoming a rare resource, the onsite reuse and recycling of grey water is practiced in many countries as a sustainable solution to reduce the overall urban water demand. However, the lack of appropriate water quality standards or guidelines has hampered the appropriate grey water reuses. Based on literature review, a non-potable urban grey water treatment and reuse scheme is proposed and the treatment alternatives for grey water reuse are evaluated according to the grey water characteristics, the proposed standards and economical feasibility.

  20. The Progress and Suggestions of Waste Garments Recycle and Reuse%废旧衣物循环利用进展及建议



    简要介绍了美国、日本、欧洲等地废旧衣物循环利用的情况,重点分析了我国废旧衣物产生及处理情况,并介绍了国内废旧衣物的主要交易市场.对我国废旧衣物循环利用的进展进行了介绍,指出了在循环利用过程中存在的问题并对此提出了建议.%The situations of waste garments recycle and reuse in USA, Japan, UK, etc. Were introduced briefly. The situation of waste garments in China and its handling were mainly analyzed, and the main business markets of waste garments in China were described. At the meantime, the recycling of waste garments in China was introduced, the suggestions were made in order to solve the problems in the recycle of waste garments.

  1. A Study of Recycling and Reuse of Residual Agricultural Plastic Film in Ningxia%宁夏农田残膜回收与再利用研究



    In recent years, the residual plastic films in the farmlands are increasing continuously with the increase of film-mulching planting area and resulting in "white pollution" in the farmlands. Research on the recycling and reuse of the farmland plastic films is an effective way to solve the "white pollution" problem. Based on the field research and literature study the basic situation of the farmland plastic film recycling and reuse is better known and the problems currently existing in the work of the plastic film recycling and reuse in Ningxia are summarized. Learning from the advanced experiences from both domestic and abroad, it is suggested that the following measures should be adopted: publicity should be strengthened to create an atmosphere; production should be carried out according to the quality standards; researches and selection should be conducted actively to identify the machine models which are suitable for local area; financial subsidy policy should be strengthened; a scheduling and an examination should be conducted for the work and so on. An long-term effectively oper-ating mechanism and a set of mechanized residual plastic film recycling and re-use equipment and processing technology which would be appropriate for application in Ningxia are made out.%近年来,覆膜种植面积不断增大,农田里残留的各种地膜数量不断增加,造成了农田的“白色污染”。研究农田残膜的回收和再利用是解决“白色污染”问题的有效途径。通过实地调研和文献研究,了解宁夏地区农田残膜回收和再利用工作的基本情况,总结出宁夏农田残膜回收和再利工作中存在的问题。借鉴国内外先进经验,提出:加强宣传,营造氛围;以质量标准规范生产;积极进行研发和选型工作,确定适宜机型;强化财政补贴政策;制定规划、纳入考核项目等农田残膜回收与再利用的方法。并探索确定适宜宁夏应用的残膜机

  2. 基于水资源再利用的自动蓄水循环系统%Automatic water storage and recycling system based on water reuse

    角文滨; 徐镇标; 林普靖; 严庆东; 温耀龙; 李克天


    Automatic water storage and recycling system for water reuse,as well as a new type of concept house were put forward.It was suggested to avoid rush hour of water use in summer,and make use of high water pressure at night to replenish the water tank automa%提出一种居民家庭自动蓄水循环系统和二次循环水利用及新型概念房的构想。通过错过夏天用水高峰时段,合理利用夜晚水压进行水箱日常用水的自动补给。中水回用和雨水收集使得在概念房的有限面积内达到最大的水循环利用效率。

  3. 核设施退役产生的污染物料的再循环再利用%Recycle and Reuse of Radioactively Contaminated Materials from Decommissioning of Nuclear Facilities

    王永仙; 梁宇; 安凯媛; 崔安熙; 董毅漫


    简要阐述了核设施退役过程产生的主要污染物料---金属和混凝土的再循环和再利用情况,包括染物料的产生情况、再循环再利用途径、再循环再利用可参考的标准,以及几种污染物料的再循环再利用技术,以期对我国今后核设施退役产生的污染物料的管理提供技术支持。%The paper describes briefly the information on the recycle and reuse of radioactive materials (mainly metal and concrete ) arising from the decommissioning of nuclear facilities ,including the arisings of radioac-tively contaminated materials ,the opportunities of the recycle and reuse ,the factors influencing the practice of recycle and reuse of radioactive materials ,the approaches to recycle and reuse of radioactive materials .It may provide technological support for the management of radioactive materials .

  4. Research on the potential health risks of recycled water reuse and their countermeasures%再生水回用的潜在健康风险及对策研究

    张建国; 牛志广; 王晨晨; 张颖


    随着水资源短缺的日益加剧,再生水作为城市第二水源在一定程度上缓解了水资源的供需矛盾.阐述了国内外再生水回用情况,并分析了再生水回用过程中对人体健康的潜在风险,在此基础上对再生水安全回用的对策与建议进行了总结.最后,对再生水回用在今后的发展方向进行了展望.%With the increasing shortage of water resources, recycled water, as the second source of water, has alleviated the shortage of water supply to some extent. The current situation of recycled water reuse in China and abroad is expounded. Then, potential health risks produced in the process of recycled water reuse are analyzed. And, based on this, corresponding countermeasures for safe utilization of recycled water are summarized. At the end, the development of recycled water reuse is predicted.

  5. Reúso de água em indústria de reciclagem de plástico tipo PEAD Water reuse on HDPE plastics recycling pack industry

    Angela Cristina Orsi Bordonalli


    Full Text Available A discussão acerca da viabilidade técnica, econômica e ambiental do reúso da água em processos industriais tem sido uma preocupação constante. Neste trabalho propõe-se uma alternativa simplificada para o tratamento de efluentes com vistas ao seu reúso em uma indústria de reciclagem de plásticos. A água, no presente caso, é componente fundamental para o processo, já que participa como elemento de remoção de detritos e impurezas que contaminam a matriz da matéria-prima utilizada, proveniente, principalmente, de aterros sanitários e lixões. As embalagens plásticas recicladas pela indústria em questão são, em sua grande maioria, de uso doméstico e, em menor escala, frascos contaminados com óleos lubrificantes. Os resultados demonstraram a viabilidade do tratamento através de processo físico-químico por coagulação, floculação, decantação e filtração em manta geotêxtil, com o uso do hidroxicloreto de alumínio (PAC como coagulante, soda cáustica (50% como alcalinizante e polieletrólito como auxiliar de floculação e desidratação do lodo, bem como a exequibilidade do reúso dos efluentes em circuito fechado.The discussion about technical, economical and environmental feasibility of water reuse in industrial process has been a constant concern. This paper purposes a simplified choice for waste water treatment seeking reuse in a plastic recycle industry. The water, in this case, is a prime component because it is the main element for the debris and impurities removal that contaminates the matrix of plastic raw material, which comes, mostly, from landfill and waste disposals. The recycled plastic packages, from the company that had been used for this research, come mostly from domestic use and, in a minor scale, the plastic package contaminated by lubricant oil. The final results show feasible for the treatment through physical-chemical process by coagulation, flocculation, decantation and filtration on geotextile

  6. Reduce, Reuse, Recycle: Resources and Strategies for the Use of Writing Projects in Mathematics

    Latulippe, Joe; Latulippe, Christine


    As an often recommended but under-utilized pedagogical strategy, writing in mathematics has many benefits for students. However, creating and grading worthwhile writing projects can be more time-consuming than utilizing more traditional forms of assessment. This paper provides a concrete example of a writing project prompt, questions, directions,…

  7. Food packaging in South Africa: reducing, re-using and recycling.

    Nahman, Anton


    Full Text Available Food packaging is essential for maintaining food quality, freshness and integrity. It also allows for convenient transport, storage and sale in discrete quantities. Finally, it can be used as a means of product differentiation, marketing...

  8. Recycling: Mining Resources from Trash. 4-H Leader's/Teacher's Guide.

    Bonhotal, Jean F.

    This guide is designed for adult volunteer leaders, camp counselors, and teachers who want to explore the subject of recycling with youth. An introduction explores the waste disposal options of reducing, reusing, and recycling, and reasons for recycling. Additional background information is provided on common solid waste and how it can be reused…

  9. SRS stainless steel beneficial reuse program

    Boettinger, W.L.


    The US Department of Energy`s (DOE) Savannah River Site (SRS) has thousands of tons of stainless steel radioactive scrap metal (RSNI). Much of the metal is volumetrically contaminated. There is no {open_quotes}de minimis{close_quotes} free release level for volumetric material, and therefore no way to recycle the metal into the normal commercial market. If declared waste, the metal would qualify as low level radioactive waste (LLW) and ultimately be dispositioned through shallow land buried at a cost of millions of dollars. The metal however could be recycled in a {open_quotes}controlled release{close_quote} manner, in the form of containers to hold other types of radioactive waste. This form of recycle is generally referred to as {open_quotes}Beneficial Reuse{close_quotes}. Beneficial reuse reduces the amount of disposal space needed and reduces the need for virgin containers which would themselves become contaminated. Stainless steel is particularly suited for long term storage because of its resistance to corrosion. To assess the practicality of stainless steel RSM recycle the SRS Benficial Reuse Program began a demonstration in 1994, funded by the DOE Office of Science and Technology. This paper discusses the experiences gained in this program.

  10. An Integrated Approach to Identification, Assessment and Management of Watershed-Scale Risk for Sustainable Water Use Through Reuse and Recycling

    Hunter, C. K.; Bolster, D.; Gironas, J. A.


    Water resources are essential to development, not only economically but also socially, politically and ecologically. With growing demand and potentially shrinking supply, water scarcity is one of the most pressing socio-ecological problems of the 21st century. Considering implications of global change and the complexity of interrelated systems, uncertain future conditions compound problems associated with water stress, requiring hydrologic models to re-examine traditional water resource planning and management. The Copiapó water basin, located in the Atacama Desert of northern Chile exhibits a complex resource management scenario. With annual average precipitation of only 28 mm, water intensive sectors such as export agriculture, extensive mining, and a growing population have depleted the aquifeŕs reserves to near critical levels. Being that global climate change models predict a decrease in already scarce precipitation, and that growing population and economies demand will likely increase, the real future situation might be even worse than that predicted. A viable option for alleviation of water stress, water reuse and recycling has evolved through technological innovation to feasibly meet hydraulic needs with reclaimed water. For the proper application of these methods for resource management, however, stakeholders must possess tools by which to quantify hydrologic risk, understand its factors of causation, and choose between competing management scenarios and technologies so as to optimize productivity. While previous investigations have addressed similar problems, they often overlook aspects of forecasting uncertainty, proposing solutions that while accurate under specific scenarios, lack robustness to withstand future variations. Using the WEAP (Water Evaluation and Planning) platform for hydrologic modeling, this study proposes a methodology, applicable to other stressed watersheds, to quantify inherent risk in water management positions, while considering

  11. Reuse and Restoration

    Brand, Peter


    Like members of all pre-modern societies, ancient Egyptians practiced various forms of recycling. The reuse of building materials by rulers is attested throughout Egyptian history and was motivated by ideological and economic concerns. Reuse of masonry from the dilapidated monuments of royal predecessors may have given legitimacy to newer constructions, but in some cases, economic considerations or even antipathy towards an earlier ruler were the decisive factors. Private individuals also mad...

  12. A novel approach to recycle bacterial culture waste for fermentation reuse via a microbial fuel cell-membrane bioreactor system.

    Li, Jian; Zhu, Yuan; Zhuang, Liangpeng; Otsuka, Yuichiro; Nakamura, Masaya; Goodell, Barry; Sonoki, Tomonori; He, Zhen


    Biochemical production processes require water and nutrient resources for culture media preparation, but aqueous waste is generated after the target products are extracted. In this study, culture waste (including cells) produced from a lab-scale fermenter was fed into a microbial fuel cell-membrane bioreactor (MFC-MBR) system. Electrical energy was generated via the interaction between the microbial consortia and the solid electrode in the MFC. The treated wastewater was reclaimed in this process which was reused as a solvent and a nutrient source in subsequent fermentation. Polarization testing showed that the MFC produced a maximum current density of 37.53 A m(-3) with a maximum power density of 5.49 W m(-3). The MFC was able to generate 0.04 kWh of energy per cubic meter of culture waste treated. The lab-scale fermenters containing pure cultures of an engineered Pseudomonas spp. were used to generate 2-pyrone-4,6-dicarboxylic acid (PDC), a high value platform chemical. When the MFC-MBR-treated wastewater was used for the fermenter culture medium, a specific bacterial growth rate of 1.00 ± 0.05 h(-1) was obtained with a PDC production rate of 708.11 ± 64.70 mg PDC L(-1) h(-1). Comparable values for controls using pure water were 0.95 ± 0.06 h(-1) and 621.01 ± 22.09 mg PDC L(-1) h(-1) (P > 0.05), respectively. The results provide insight on a new approach for more sustainable bio-material production while at the same time generating energy, and suggest that the treated wastewater can be used as a solvent and a nutrient source for the fermentation production of high value platform chemicals.

  13. Sustainable approach for recycling waste lamb and chicken bones for fluoride removal from water followed by reusing fluoride-bearing waste in concrete.

    Ismail, Zainab Z; AbdelKareem, Hala N


    Sustainable management of waste materials is an attractive approach for modern societies. In this study, recycling of raw waste lamb and chicken bones for defluoridation of water has been estimated. The effects of several experimental parameters including contact time, pH, bone dose, fluoride initial concentration, bone grains size, agitation rate, and the effect of co-existing anions in actual samples of wastewater were studied for fluoride removal from aqueous solutions. Results indicated excellent fluoride removal efficiency up to 99.4% and 99.8% using lamb and chicken bones, respectively at fluoride initial concentration of 10 mg F/L and 120 min contact time. Maximum fluoride uptake was obtained at neutral pH range 6-7. Fluoride removal kinetic was well described by the pseudo-second order kinetic model. Both, Langmuir and Freundlich isotherm models could fit the experimental data well with correlation coefficient values >0.99 suggesting favorable conditions of the process. Furthermore, for complete sustainable management of waste bones, the resulted fluoride-bearing sludge was reused in concrete mixes to partially replace sand. Tests of the mechanical properties of fluoride sludge-modified concrete mixes indicated a potential environmentally friendly approach to dispose fluoride sludge in concrete and simultaneously enhance concrete properties.

  14. Consumer preferences for reduced packaging under economic instruments and recycling policy.

    Yamaguchi, Keiko; Takeuchi, Kenji


    This study was conducted using a web-based survey and bidding game in contingent valuation method to evaluate consumer preferences for packaging with less material. Results revealed that people who live in a municipality implementing unit-based pricing of waste have a higher willingness-to-pay (WTP) for a product. Economic instruments can affect the purchase of products with reduced packaging because a higher disposal cost increases the attractiveness of source reduction. However, unit-based pricing combined with plastic separation for recycling reduces WTP. This result suggests that recycling policy weakens the effect of economic instruments on source reduction of waste.

  15. Waste Water Recycling and Reuse Treatment Technology Practice of Gold Smelting%黄金冶炼废水回收及回用处理技术实践

    王安理; 李建政; 刘晓勃


    黄金冶炼废水主要由酸性废水和含氰废水组成,按照废水“回收+回用处理”的处理原则,采用3项专利技术,废水处理回收了氰化钠和硫氰化亚铜,实现了废水100%回用。%Waste water of gold smelting mainly consists of acid waste water and cyanide-containing waste. In accordance with the principle of " recycling and reuse treatment" for waste water, three patent technologies are adopted. The waste water treatment recovers sodium cyanide and cuprous rhodanide, achieving the goal that waste water is 100% reused.

  16. Evolutionary Genetics: Reuse, Recycle, Converge.

    Miller, Charles J J; Matute, Daniel R


    Our understanding of how genetic changes underlie the evolution of traits is growing fast. Two new studies now show that changes in the same genetic loci can drive the evolution of the same trait in multiple Drosophila species.

  17. Effect of Recycling and Reuse of Phosphogypsum on Corn Growth%磷石膏资源化利用对玉米生长影响

    张富存; 刘小雪; 孔祥云; 吴洪生; 周晓冬; 张伟; 路平; 吴红兵; 满军; 王增辉; 闫霜


    Agricultural recycling and reuse of phosphogypsum, a principal solid waste polluter in phosphous chemical plant, were conducted. Effects of phosphogypsum extract on corn seed were investigated in lab. The results showed that phosphogypsum extract significantly inhibited the germination of corn seeds within 6 days. The higher the concentration of phoephogypsum extract was, the lower the germination rate, which was inhibited at the third and fourth day. Low concentration of phosphogypsum extract could promote α-amylaae and (α + β)- my-lase activity which reached the maximum value at the concentration of 0. 25 %. Indole acetic acid decreased in the corn seed treated with phosphogypsum extract concentrations of 0.1 % - 0.125 % ,and at the concentration of 0. 125 % ,the IAA content was the lowest, which was 27, 73 μg/g lower than that of CK. With the higher concentrations of phosphogypsum extract,Indole acetic acid significantly increased and reached the highest at 0.5 %. The seeds treated with phoephogypsum extract showed thai llie Indole acetic acid oxidase activity decreased, on which there existed the strongest inhibitory effect of phosphogypsum extract at 0.25 %.%本试验研究了磷化工的主要污染物固体度渣磷石膏的农业资源化利用.室内测定了磷石膏浸提液对玉米种子有关指标的影响.结果表明,磷石膏浸提液在6 d之内抑制玉米种子的萌发,浓度越高,玉米发芽率越低,且对第3天和第4天的发芽率影响最大.低浓度的磷石膏可以促进α-淀粉酶和(α+β)-淀粉晦的活性,并在0.25%的浓度达到最高值.玉米吲哚乙酸含量有明显变化,0.1 %-0.125%浓度处理会使吲哚乙酸含量减少,在0.125%浓度吲哚乙酸含量达到最低值,比对照低27.73μg·g-1,在0.5%达到最高值.种子的吲哚乙酸氧化酶活性降低,0.25%磷石膏抑制作用最强.

  18. Using Recycled Glass and Zeolite in Concrete Pavement to Mitigate Heat Island and Reduce Thermal Cracks

    Erhan Burak Pancar


    Full Text Available Urban heat island (UHI effect is built environmental issue related to pavements. It is desired to reduce pavement high surface temperature in summer to mitigate UHI effect. High surface temperature also affects slab temperature difference (the top surface temperature minus the bottom surface temperature of the slab. The increased slab temperature difference induces a high possibility of cracking in concrete roads. The prime aim of this study was to reduce the slab surface temperature by using recycled glass as a fine aggregate and zeolite as cement in concrete. Recycled glass was used to replace fine aggregate in proportions of 10%, 20%, and 30% by total weight of aggregate. Zeolite replaced Portland cement in proportions of 10% and 30% for three different proportions of recycled glass concrete mixtures. Optimum proportions were determined by examining mechanical properties of samples and alkali-silica reactions. It was noticed that using recycled glass and zeolite together in concrete reduces pavement surface temperature and temperature gradient in summer.

  19. 电子废弃物资源化及其环境污染研究进展——回收、处理与处置体系%Advances in resource reuse of WEEE and its environmental pollution -recycling, treatment, and disposal system

    黄帆; 陈玲; 杨超; 孟祥周


    综述了发达国家电子废弃物的规范化回收体系和集约化处理处置体系,剖析了发展中国家电子废弃物资源化过程中存在的主要问题和环境污染后果,并就目前国内对电子垃圾的无序回收管理和以损害环境为代价的原始粗放型处理方式进行了分析和讨论.%This paper intends to make a research review over the advancements made so far on the recycling, re-use treatment, and disposai system used for WEEE in some developed countries along with our analysis of the hardnuts in the current research work in this way in our country and some other developing countries, such as India and Pakistan. The used or waste electrical and electronic equipments (WEEE, e-waste, or devices and appliances) has become one of the fastest growing trends among all the solid wastes around the world with the development of the IT industry. In view of the environmental pollution and human health hazards brought about by WEEE and the high residual value of the materials left-over in them, such as precious metals, alloys, plastics and glass, more and more people began to realize the potential value hidden in such used or waste appliances,which attract ever-growing attention in recent years. However, it is just a beginning. Actually more and more untouched areas are awaiting the promising efforts of the researchers. To address potential environmental problems that have resulted from the improper management of WEEE even in some developed countries and organizations, who have already drafted national legislation laws and plans for improved recycling, re-use and valuable material recovery of the WEEE in hoping to reduce the amount and types of e-waste. Unfortunately,such a kind of large-scale and official campaign and governmental or nation-wide recycling and re-use plans and laws haven't yet been started. The scale and method of WEEE recycling in China remains low-graded and primitive, which have resulted in serious consequences

  20. Rethink, Rework, Recycle.

    Wrhen, Linda; DiSpezio, Michael A.


    Information about the recycling and reuse of plastics, aluminum, steel, glass, and newspapers is presented. The phases of recycling are described. An activity that allows students to separate recyclable materials is included. The objectives, a list of needed materials, and procedure are provided. (KR)

  1. Output-Orientated Data Envelopment Analysis for Measuring Recycling Efficiency: An Application at Italian Regional Level

    Crociata, Alessandro; Mattoscio, Nicola


    Pro-environmental behaviours associated with reducing, reusing and recycling have become increasingly matters of public policy concern. However, the existing literature on waste management rarely considers the cultural factors associated with predictors and enablers of recycling behaviours, nor has it deeply explored the relation between cultural…

  2. The social benefits of WEEE re-use schemes. A cost benefit analysis for PCs in Spain.

    González, Xose Manuel; Rodríguez, Miguel; Pena-Boquete, Yolanda


    One goal of the new European legislation set out in WEEE Directive 2012/19/UE is the promotion of WEEE re-use schemes. However, some authors are rather sceptical about the contribution of WEEE re-use schemes to improve resource efficiency. In order to evaluate and to design adequate policy instruments, some authors recommend the cost-benefit analysis (CBA) as a compulsory first step. In this context, the main contribution of this paper is to enlarge the empirical literature by providing a CBA of re-use schemes versus recycling processes of PCs. The analysis is made for Spain by quantifying in monetary terms the social damages of environmental impacts such as climate change, human toxicity, particulate matter formation, metal depletion, etc. Our results suggest that promoting re-use against recycling (and consequently the need for manufacturing a new PC from raw materials) may reduce environmental costs by 45.20€ per PC. Those social benefits are mainly generated in the re-use preparation process and distribution activities, whereas the re-use scenario displays a worse performance in energy consumption. The difference in the distribution stage during the second life cycle originates from the fact that the ready to re-use product is produced locally, while the brand new product is manufactured and distributed from abroad, mainly Asia. These results provide valuable information to policymakers and think tanks willing to design support schemes for re-use over recycling operations.

  3. Role of water reuse for enhancing integrated water management in Europe and Mediterranean countries.

    Lazarova, V; Levine, B; Sack, J; Cirelli, G; Jeffrey, P; Muntau, H; Salgot, M; Brissaud, F


    Recycling water is an important aspect of water resource and environment management policies, ensuring reliable alternative water resources, reducing environmental pollution and achieving a more sustainable form of development. This paper focuses on wastewater reuse as a strategy for integrated water management. Key economic, financial, regulatory, social and technical factors that help to make water reuse projects successful are reviewed. Selected examples from Northern and Western Europe and arid and semi-arid Mediterranean regions illustrate the contribution of wastewater reuse to integrated management of water resources.

  4. Ferromagnetic inks facilitate large scale paper recycling and reduce bleach chemical consumption.

    Zeltner, Martin; Toedtli, Laura M; Hild, Nora; Fuhrer, Roland; Rossier, Michaël; Gerber, Lukas C; Raso, Renzo A; Grass, Robert N; Stark, Wendelin J


    Deinking is a fundamental part of paper recycling. As the global paper consumption rises and exceeds even the annual paper production, recycling of this raw material is of high importance. Magnetic ink based on carbon coated magnetic nanoparticles enables an alternative approach to state of the art paper deinking. Magnetic deinking comprises three steps (preselection, washing, and magnetic separation of fibers). Preseparation of printed from nonprinted scraps of paper is feasible and reduces the paper mass which has to be fed into a deinking process. A consecutive washing process removes surficial magnetic ink that can be collected by application of a permanent magnet. Still, printed parts are subjected to a further continuous magnetic deinking step, where magnetic and nonmagnetic paper fibers can be separated. Magnetic deinking of a model print allows recovery of more than 80% of bright fibers without any harsh chemical treatment and the re-collection of more than 82% of magnetic ink.

  5. A Preliminary Study of Recycling and Reusing of Waste Textile%废旧纺织品回收利用的探讨

    严涛海; 李金水


    Main sources of wate textiles were introduced. Several ways of recycling waste textiles were presented, together with the status quo of domestic waste textile recycling industry. The process of yarn forming, weaving and recycling were discussed to provide a reference for domestic further pro- motion of recycling of waste textiles.%文章阐述了废旧纺织品的主要来源,结合我国目前废旧纺织品循环利用行业的现状提出几种主要回收利用方法,并且探讨了成纱、织造等回收利用工艺,为进一步推动我国废旧纺织品的循环利用提供参考和借鉴。

  6. Effectiveness of onsite wastewater reuse system in reducing bacterial contaminants measured with human-specific IMS/ATP and qPCR.

    Agidi, Senyo; Vedachalam, Sridhar; Mancl, Karen; Lee, Jiyoung


    Water shortages and the drive to recycle is increasing interest in reuse of reclaimed wastewater. Timely and cost-effective ways to detect fecal pollutants prior to reuse increases confidence of residents and neighbors concerned about reuse of reclaimed wastewater. The on-site wastewater treatment and reuse systems (OWTRS) used in this study include a septic tank, peat bioreactor, ClO(2) disinfection and land spray irrigation system. Bacteroides fragilis, Escherichia coli and Enterococcus spp., were tested with immunomagnetic separation/ATP bioluminescence (IMS/ATP), qPCR and culture-based methods. The results displayed a 2-log reduction in fecal bacteria in the peat bioreactor and a 5-log reduction following chloride dioxide disinfection. The fecal bacteria levels measured by IMS/ATP correlated with qPCR results: HuBac 16S (R(2) = 0.903), Bf-group 16S (R(2) = 0.956), gyrB (R(2) = 0.673), and Ent 23S (R(2) = 0.724). This is the first study in which the newly developed human-specific IMS/ATP and previously developed IMS/ATP were applied for determining OWTRS efficiency. Results of the study revealed that IMS/ATP is a timely and cost-effective way to detect fecal contaminants, and results were validated with qPCR and culture based methods. The new IMS/ATP can also be applied broadly in the detection of human-originated fecal contamination.

  7. 离子膜蒸发工序蒸汽冷凝水回收再利用%Recycling and Reusing of Steam Condensate in the Ionic Membrane Evaporation Process

    张守特; 赵军军; 刘立勤


    A great deal of condensate will be produced during the process of alkali consolidation. The liquid is mainly used as make-up water for cooling tower and as cooling water for pump. Because of the high temperature,before its recycling and reusing,the condensate needs to be cooled,which causes a waste of heat. This paper introduced ref-ormation measures of recycling and reusing of alkali-containing condensate in the ionic membrane evaporation system and proposed a solution of condensate separation based on different temperatures to deliver higher temperature liquid to the salt dissolving process. This will not only make full use of surplus heat,but only save a great many of process water.%烧碱浓缩的过程中会产生大量的冷凝水,主要作为凉水塔的补充水和机泵冷却水。由于冷凝水温度较高,其回收再利用前需要进行冷却,造成热量的浪费。介绍了离子膜蒸发系统含碱冷凝水循环再利用的改造措施,提出将不同温度的冷凝水分开,将温度高的部分送至化盐工序,不仅能将热量充分利用起来,还可以节约大量生产用水。

  8. Komunikasi Visual untuk Kampanye Gerakan 3R (Reduce-Reuce-Recycle di Bandung

    Devi Kurniawati Homan


    Full Text Available Bandung, which known as Flower City and Paris van Java, is a city tourism destination for domestic tourists and international tourists. Bandung becomes shopping and culinary travel destination. The consumption for plastic and garbage increases by the increase of tourists. Bandung suffers for garbage problem. To prevent it happens again to Bandung, it needs a campaign for garbage problem solution. It only takes three steps for decrease the garbage problem. The three steps are ‘Reduce, Reuse, Recycle’. Tourists can help to keep clean and comfort for Bandung environment. The campaign itself can be accessed in internet with smartphone, which is common for young generation. Information can easily spread and hope it becomes a good habit for Bandung tourists. 

  9. Low sulfur content hot reducing gas production using calcium oxide desulfurization with water recycle

    Feinman, J.; Mcgreal, J.E.


    A process and apparatus are claimed for producing a low sulfur content, hot reducing gas by desulfurizing hot reducing gas. This is done in the following manner; by contacting the sulfur-bearing hot reducing gas with a bed of a particulate calcium oxide desulfurizing agent to thereby produce a product gas stream and a byproduct calcium sulfide compositions recovering sulfur from the calcium sulfide composition by contacting the calcium sulfide composition with hot liquid water at a temperature and corresponding pressure sufficient to maintain steam in the system and to thereby convert the sulfide to calcium hydroxide and hydrogen sulfide and to produce a liquid water stream containing sulfur; combining the sulfur containing water stream with a fresh water stream and recycling this water stream for contacting the calcium sulfide composition. Preferably water vapor produced in the contacting step is condensed and returned to the system in the final stage of contacting the calcium sulfide composition with hot liquid water.

  10. Plastics recycling: challenges and opportunities.

    Hopewell, Jefferson; Dvorak, Robert; Kosior, Edward


    Plastics are inexpensive, lightweight and durable materials, which can readily be moulded into a variety of products that find use in a wide range of applications. As a consequence, the production of plastics has increased markedly over the last 60 years. However, current levels of their usage and disposal generate several environmental problems. Around 4 per cent of world oil and gas production, a non-renewable resource, is used as feedstock for plastics and a further 3-4% is expended to provide energy for their manufacture. A major portion of plastic produced each year is used to make disposable items of packaging or other short-lived products that are discarded within a year of manufacture. These two observations alone indicate that our current use of plastics is not sustainable. In addition, because of the durability of the polymers involved, substantial quantities of discarded end-of-life plastics are accumulating as debris in landfills and in natural habitats worldwide. Recycling is one of the most important actions currently available to reduce these impacts and represents one of the most dynamic areas in the plastics industry today. Recycling provides opportunities to reduce oil usage, carbon dioxide emissions and the quantities of waste requiring disposal. Here, we briefly set recycling into context against other waste-reduction strategies, namely reduction in material use through downgauging or product reuse, the use of alternative biodegradable materials and energy recovery as fuel. While plastics have been recycled since the 1970s, the quantities that are recycled vary geographically, according to plastic type and application. Recycling of packaging materials has seen rapid expansion over the last decades in a number of countries. Advances in technologies and systems for the collection, sorting and reprocessing of recyclable plastics are creating new opportunities for recycling, and with the combined actions of the public, industry and governments it

  11. Plastics recycling: challenges and opportunities

    Hopewell, Jefferson; Dvorak, Robert; Kosior, Edward


    Plastics are inexpensive, lightweight and durable materials, which can readily be moulded into a variety of products that find use in a wide range of applications. As a consequence, the production of plastics has increased markedly over the last 60 years. However, current levels of their usage and disposal generate several environmental problems. Around 4 per cent of world oil and gas production, a non-renewable resource, is used as feedstock for plastics and a further 3–4% is expended to provide energy for their manufacture. A major portion of plastic produced each year is used to make disposable items of packaging or other short-lived products that are discarded within a year of manufacture. These two observations alone indicate that our current use of plastics is not sustainable. In addition, because of the durability of the polymers involved, substantial quantities of discarded end-of-life plastics are accumulating as debris in landfills and in natural habitats worldwide. Recycling is one of the most important actions currently available to reduce these impacts and represents one of the most dynamic areas in the plastics industry today. Recycling provides opportunities to reduce oil usage, carbon dioxide emissions and the quantities of waste requiring disposal. Here, we briefly set recycling into context against other waste-reduction strategies, namely reduction in material use through downgauging or product reuse, the use of alternative biodegradable materials and energy recovery as fuel. While plastics have been recycled since the 1970s, the quantities that are recycled vary geographically, according to plastic type and application. Recycling of packaging materials has seen rapid expansion over the last decades in a number of countries. Advances in technologies and systems for the collection, sorting and reprocessing of recyclable plastics are creating new opportunities for recycling, and with the combined actions of the public, industry and governments it

  12. Solvent extraction of organic acids from stillage for its re-use in ethanol production process.

    Castro, G A; Caicedo, L A; Alméciga-Díaz, C J; Sanchez, O F


    Stillage re-use in the fermentation stage in ethanol production is a technique used for the reduction of water and fermentation nutrients consumption. However, the inhibitory effect on yeast growth of the by-products and feed components that remains in stillage increases with re-use and reduces the number of possible recycles. Several methods such as ultrafiltration, electrodialysis and advanced oxidation processes have been used in stillage treatment prior its re-use in the fermentation stage. Nevertheless, few studies evaluating the effect of solvent extraction as a stillage treatment option have been performed. In this work, the inhibitory effect of serial stillage recycling over ethanol and biomass production was determined, using acetic acid as a monitoring compound during the fermentation and solvent extraction process. Raw palm oil methyl ester showed the highest acetic acid extraction from the aqueous phase, presenting a distribution coefficient of 3.10 for a 1:1 aqueous phase mixture:solvent ratio. Re-using stillage without treatment allowed up to three recycles with an ethanol production of 53.7 +/- 2.0 g L(-1), which was reduced 25% in the fifth recycle. Alternatively, treated stillage allowed up to five recycles with an ethanol final concentration of 54.7 +/- 1.3 g L(- 1). These results show that reduction of acetic acid concentration by an extraction process with raw palm oil methyl ester before re-using stillage improves the number of recycles without a major effect on ethanol production. The proposed process generates a palm oil methyl ester that contains organic acids, among other by-products, that could be used for product recovery and as an alternative fuel.

  13. Chemical recycling of scrap composites

    Allred, Ronald E.; Salas, Richard M.


    There are no well-developed technologies for recycling composite materials other than grinding to produce fillers. New approaches are needed to reclaim these valuable resources. Chemical or tertiary recycling, conversion of polymers into low molecular weight hydrocarbons for reuse as chemicals or fuels, is emerging as the most practical means for obtaining value from waste plastics and composites. Adherent Technologies is exploring a low-temperature catalytic process for recycling plastics and composites. Laboratory results show that all types of plastics, thermosets as well as thermoplastics, can be converted in high yields to valuable hydrocarbon products. This novel catalytic process runs at 200 C, conversion times are rapid, the process is closed and, thus, nonpolluting, and no highly toxic gas or liquid products have been observed so no negative environmental impact will result from its implementation. Tests on reclamation of composite materials show that epoxy, imide, and engineering thermoplastic matrices can be converted to low molecular weight hydrocarbons leaving behind the reinforcing fibers for reuse as composite reinforcements in secondary, lower-performance applications. Chemical recycling is also a means to dispose of sensitive or classified organic materials without incineration and provides a means to eliminate or reduce mixed hazardous wastes containing organic materials.

  14. Experimental study on recycling and reuse of concrete waste%混凝土废弃物的回收与再利用试验研究



    对混凝土废弃物破碎回收后取得的再生细骨料按不同替代率拌合成的混凝土力学性能进行了研究分析,通过不同再生细骨料取代率下的混凝土标准立方体抗压强度和劈裂强度对比试验,分析了再生细骨料对混凝土力学性能的影响效果。%In this paper,we studied the mechanical property of the concrete which is made by mixing the recycled fine aggregate gotten from breakage and retrieval of concrete waste with different rate of substitution. The influence of recycled fine aggregate on properties of concrete was discussed in the paper by contrast experimentation of standard cube compressive strength and splitting strength of concrete with different recycled fine aggregate replacement rate.

  15. Recycling Flight Hardware Components and Systems to Reduce Next Generation Research Costs

    Turner, Wlat


    With the recent 'new direction' put forth by President Obama identifying NASA's new focus in research rather than continuing on a path to return to the Moon and Mars, the focus of work at Kennedy Space Center (KSC) may be changing dramatically. Research opportunities within the micro-gravity community potentially stands at the threshold of resurgence when the new direction of the agency takes hold for the next generation of experimenters. This presentation defines a strategy for recycling flight experiment components or part numbers, in order to reduce research project costs, not just in component selection and fabrication, but in expediting qualification of hardware for flight. A key component of the strategy is effective communication of relevant flight hardware information and available flight hardware components to researchers, with the goal of 'short circuiting' the design process for flight experiments

  16. Energetic reuse: the use of energy from organic material from urban waste for plastics recycling; Reaproveitamento energetico: uso de energia proveniente de material organico dos residuos urbanos para reciclar plasticos

    Carneiro, Priscila Alves; Rocha, Carlos Roberto [Universidade Federal de Itajuba (EXCEN/UNIFEI), MG (Brazil). Centro de Excelencia em Eficiencia Energetica


    PET (2,12 GJ/t) but also for hard plastic (0.11 GJ/t). According to the percentage of plastics to be recycled and the amount of necessary electric power to that end it was verified recycling possibility using 'the recycled' energy of the residues in the city. The electric power generated by the use of biogas, when applying a study of case in the city of Itajuba-MG, possible of obtaining in the landfill (11,5 GJ/day) and will have used biodigestors (14,5 GJ/day) is enough to supply the necessary energy demand for recycling of the hard plastics (0,17 GJ/day), as well as soft plastics and PET (11,2 GJ/day) discarded daily in this city. The recycling of residues plastic powder-consumption using recycled energy of the discarded residues in a municipal district besides carting social and environmental earnings for using less the natural resources, it comes to contribute for the solution of problems related to the final destination of the residues and consequently for the use of the electric power generated with the use of the biogas that has your price reduced to half of the regular one, besides not having tax taking the smaller economical viability when being sold to the c place than your use, what motivates the installation of units of located recycling in the sanitary embankments or in your proximities guaranteeing a larger supporting to the municipal district in what the project intends to be implanted. (author)

  17. 废旧线路板中塑料的回收及利用%Recycling and Reusing of Plastic in Waste Printed Circuit Board



    总结了废旧线路板中塑料的回收处置方法和废旧线路板中塑料的回收利用现状.重点介绍了废旧线路板中塑料的物理回收法、热解回收法和溶液回收法,在综合比较废旧线路板中塑料回收利用的各种方法的基础上展望了废旧线路板中塑料回收利用的发展趋势.%The recycling technology and comprehensive application-situation of plastic in waste printed circuit board were summarized, and the physical recovery method, pyrolysis recovery method and solution recovery method were mainly introduced. On the basis of comprehensive comparing of the recycling methods, the recyling trends of plastic in waste printed circuit board was prospected.

  18. Evaluation of sub-critical water as an extraction fluid for model contaminants from recycled PET for reuse as food packaging material.

    Santos, Amélia S F; Agnelli, José A M; Manrich, Sati


    Recycling of plastics for food-contact packaging is an important issue and research into meaningful and cost-effective solutions is in progress. In this paper, the use of sub-critical water was evaluated as an alternative way of purifying poly(ethylene terephthalate) (PET) flakes for direct food contact applications. The effects of temperature, pressure and flow rate were assessed on the extraction efficiency of two of the most challenging classes of contaminants (toluene and benzophenone) from PET by sub-critical water using a first-order fractional experimental design. Extraction yield was quantified using GC/FID. The most important parameter was flow rate, indicating that the decrease in sub-critical water polarity with temperature was insufficient to eliminate partition effects. Temperature was also important, but only for the optimization of toluene extraction. These results may be explained by the poor solubility of higher molar mass compounds in sub-critical water compared to lower molar mass compounds under the same conditions, and the small decrease in dielectric constant with temperature under the experimental conditions evaluated. As cleaning efficiency is low and PET is very susceptible to hydrolysis, which limits the use of higher temperatures vis-à-vis physical recycling, the proposed extraction is unsuitable for a standalone super-clean process but may be a step in the process.

  19. Multiple-pass water reuse

    Bhattacharyya, D.; Farthing, S.S.; Cheng, C.S.


    Low-pressure membranes have definite advantages for the treatment of metal-processing wastewaters and acid mine water. The membrane processes are evaluated in terms of obtaining maximum water recovery (greater than 90%), proper ultrafiltrate quality, multiple-pass water reuse, and concentrate recycle. Various multi-salt solutions containing heavy metals (including cyanide complexes), and acid mine waters have been extensively investigated with a bench-scale unit, and a computer simulation model has been used to scale-up from the laboratory data. Water reuse models are presented for multiple passes. 9 references, 12 figures, 3 tables. (JMT)

  20. Identifying the key factors in increasing recycling and reducing residual household waste: a case study of the Flemish region of Belgium.

    Gellynck, X; Jacobsen, R; Verhelst, P


    The competent waste authority in the Flemish region of Belgium created the 'Implementation plan household waste 2003-2007' and the 'Implementation plan sustainable management 2010-2015' to comply with EU regulation. It incorporates European and regional requirements and describes strategies, goals, actions and instruments for the collection and treatment of household waste. The central mandatory goal is to reduce and maintain the amount of residual household waste to 150 kg per capita per year between 2010-2015. In literature, a reasonable body of information has been published on the effectiveness and efficiency of a variety of policy instruments, but the information is complex, often contradictory and difficult to interpret. The objective of this paper is to identify, through the development of a binary logistic regression model, those variables of the waste collection scheme that help municipalities to reach the mandatory 150 kg goal. The model covers a number of variables for household characteristics, provision of recycling services, frequency of waste collection and charging for waste services. This paper, however, is not about waste prevention and reuse. The dataset originates from 2003. Four out of 12 variables in the model contributed significantly: income per capita, cost of residual waste collection, collection frequency and separate curbside collection of organic waste.

  1. Municipal solid waste management for total resource recycling: a case study on Haulien County in Taiwan.

    Chang, Yu-Min; Liu, Chien-Chung; Dai, Wen-Chien; Hu, Allen; Tseng, Chao-Heng; Chou, Chieh-Mei


    This work presents the enforcement performance of recent Haulien County, Taiwan municipal solid waste (MSW) recycling management programs. These programs include: Mandatory Refuse Sorting and Recycling, Diverse Bulk Waste Reuse, Pay-as-you-Discharge, Total Food Waste Recycling, Restricted Use on Plastic Shopping Bags & Plastic Tableware, Recycling Fund Management, and Ash Reuse. These programs provide incentives to reduce the MSW quantity growth rate. It was found that the recycled material fraction of MSW generated in 2001 was from 6.8%, but was 32.4% in 2010 and will increase stably by 2-5% yearly in the near future. Survey data for the last few years show that only 2.68% (based on total MSW generated) of food waste was collected in 2001. However, food waste was up to 9.7% in 2010 after the Total Food Waste Recycling program was implemented. The reutilization rate of bottom ash was 20% in 2005 and up to 65% in 2010 owing to Ash Reuse Program enforcement. A quantified index, the Total Recycle Index, was proposed to evaluate MSW management program performance. The demonstrated county will move toward a zero waste society in 2015 if the Total Recycle Index approaches 1.00. Exact management with available programs can lead to slow-growing waste volume and recovery of all MSW.

  2. Usage of Recycled Pet

    A. Ebru Tayyar


    Full Text Available The increasing industrialization, urbanization and the technological development have caused to increase depletion of the natural resources and environmental pollution's problem. Especially, for the countries which have not enough space recycling of the waste eliminating waste on regular basis or decreasing the amount and volume of waste have provided the important advantages. There are lots of studies and projects to develop both protect resources and prevent environmental pollution. PET bottles are commonly used in beverage industry and can be reused after physical and chemical recycling processes. Usage areas of recycled PET have been developed rapidly. Although recycled PET is used in plastic industry, composite industry also provides usage alternatives of recycled PET. Textile is a suitable sector for recycling of some plastics made of polymers too. In this study, the recycling technologies and applications of waste PET bottles have been investigated and scientific works in this area have been summarized.

  3. Recyclable removal of bisphenol A from aqueous solution by reduced graphene oxide-magnetic nanoparticles: adsorption and desorption.

    Zhang, Yixuan; Cheng, Yuxiao; Chen, Ningning; Zhou, Yuyan; Li, Bingyu; Gu, Wei; Shi, Xinhao; Xian, Yuezhong


    Reduced graphene oxide (rGO) nanosheets decorated with tunable magnetic nanoparticles (MNPs) were synthesized by a simple co-precipitation method and employed for recyclable removal of bisphenol A (BPA) from aqueous solution. The morphological characterization shows that Fe3O4 nanoparticles are uniformly deposited on rGO sheets. The magnetic characterization demonstrates that composites with various amounts of Fe3O4 nanoparticles are superparamagnetic. Due to the superparamagnetism, rGO-MNPs were used as recyclable adsorbents for BPA removal in aqueous solution. The kinetics of the adsorption process and the adsorption isotherm were investigated. The results indicate that the adsorption process is fitted to Langmuir model and the composites with lower density of MNPs represent better adsorption ability. In addition, its kinetics follows pseudo-second-order rate equation. Moreover, the adsorbents could be recovered conveniently by magnetic separation and recyclable used because of the easy desorption of BPA.

  4. Does recyclable separation reduce the cost of municipal waste management in Japan?

    Chifari, Rosaria; Lo Piano, Samuele; Matsumoto, Shigeru; Tasaki, Tomohiro


    Municipal solid waste (MSW) management is a system involving multiple sub-systems that typically require demanding inputs, materials and resources to properly process generated waste throughput. For this reason, MSW management is generally one of the most expensive services provided by municipalities. In this paper, we analyze the Japanese MSW management system and estimate the cost elasticity with respect to the waste volumes at three treatment stages: collection, processing, and disposal. Although we observe economies of scale at all three stages, the collection cost is less elastic than the disposal cost. We also examine whether source separation at home affects the cost of MSW management. The empirical results show that the separate collection of the recyclable fraction leads to reduced processing costs at intermediate treatment facilities, but does not change the overall waste management cost. Our analysis also reveals that the cost of waste management systems decreases when the service is provided by private companies through a public tender. The cost decreases even more when the service is performed under the coordination of adjacent municipalities. Copyright © 2017 Elsevier Ltd. All rights reserved.

  5. 造纸工业中水回用的中试研究%Research on the pilot scale recycled water reuse applied to paper-making industry

    张青; 朱华静; 聂云


    采用叠片过滤+超滤(UF)+反渗透(RO)系统对某造纸厂二级处理后的废水进行了中试规模的深度处理研究,试验结果表明:其出水平均COD为4.44 mg/L,SS<1 mg/L,COD、SS去除率分别为96.1%、97.9%,电导率为19.39μS/cm,平均脱盐率为99.5%,平均浊度降为0.06 NTU,出水优良,各项指标均满足回用水水质标准。该工艺能连续稳定运行,在技术上可行、可靠。%The research on the pilot scale advanced treatment has been accomplished for the wastewater after secondary treatment by laminated filter+UF+RO system in a paper mill. The results show that when its average COD is 4.44 mg/L,and SS less than 1 mg/L,the removing rates of COD and SS are 96.1%and 97.9%respectively,condu-ctivity 19.39 μS/cm,average desalination rate as high as 99.5%,and average turbidity dropped to 0.06 NTU, excellent effluent can be obtained. In general ,the water treated by this technology can completely meet the require-ments of the recycled water quality standards. This process has the advantages of continuous and stable operation , and feasible and reliable techniques.

  6. 梧州年产30万吨再生铜循环水系统%The water reuse system of engineering of an anural output of 300000 tons recycled copper



    Water recycling can greatly reduce the pressure on water shortage, and it is also the most active protection of the water environment, or the best way to solve the contradiction of ecological and environmental. This paper discusses the Water cycle process of engineering of an anural output of 300000 tons recycled copper, Guangxi Nonferrous Metals Recycling Co., Ltd. Fully reflects the company concern about environment protection and the social responsibility.%水的循环利用不仅可以大大减轻水资源短缺的压力,也是最积极主动地保护水环境,还是解决生态用水和环境用水的最佳途径;文章介绍了广西有色再生金属有限公司年产30万吨再生铜项目的水循环工艺,体现广西有色重视环境保护,充分考虑采用减少“三废”污染的工艺和设施,为保护好山川秀美、生态梧州尽企业最大的社会责任。

  7. Water Recycling in Australia

    Ross Young


    Full Text Available Australia is the driest inhabited continent on earth and, more importantly, experiences the most variable rainfall of all the continents on our planet. The vast majority of Australians live in large cities on the coast. Because wastewater treatments plants were all located near the coast, it was thought that large scale recycling would be problematic given the cost of infrastructure and pumping required to establish recycled water schemes. This all changed when Australia experienced a decade of record low rainfall and water utilities were given aggressive targets to increase the volume of water recycled. This resulted in recycled water being accepted as a legitimate source of water for non-drinking purposes in a diversified portfolio of water sources to mitigate climate risk. To ensure community support for recycled water, Australia lead the world in developing national guidelines for the various uses of recycled water to ensure the protection of public health and the environment. Australia now provides a great case study of the developments in maximizing water recycling opportunities from policy, regulatory and technological perspectives. This paper explores the evolution in thinking and how approaches to wastewater reuse has changed over the past 40 years from an effluent disposal issue to one of recognizing wastewater as a legitimate and valuable resource. Despite recycled water being a popular choice and being broadly embraced, the concept of indirect potable reuse schemes have lacked community and political support across Australia to date.

  8. Collection of Recyclables from Cubes

    Wøhlk, Sanne; Bogh, Morten Bie; Mikkelsen, Hardy


    Collection of recyclable materials is a major part of reverse logistics and an important issue in sustainable logistics. In this paper we consider a case study where paper and glass are collected from recycling cubes and transported to a treatment facility where it is processed for reuse. We anal...

  9. EPA Funding to Help Syracuse Small Business Develop New Green Technology, Advanced Recovery and Recycling, LLC Receives $100,000 for New Approach that Reduces Electronic Waste

    (New York, N.Y.) The U.S. Environmental Protection Agency has awarded $100,000 to Advanced Recovery and Recycling, LLC of Onondaga County, New York to continue its development of an efficient technology that recycles circuit board components to reduce elec

  10. Tecnologias utilizadas para a reutilização, reciclagem e valorização energética de pneus no Brasil Technologies for reusing, recycling and energetic valorization of tires in Brazil

    Carlos Alberto F. Lagarinhos


    and importers of tires must collect and give the final destination to the used tires. The distributors, retailers, re-modelers and final consumers are co-responsible for the collection of the used or unserviceable tires. In this study we review the technologies for reusing, recycling and energetic valorization of tires, in addition to presenting a flowchart of the reverse logistic process for new and used tires. Also included are statistical data of distribution channels, recycling goals and final destination for the used tires in the period from 2002 to 2006. In 2006, 240.62 thousand tons of unserviceable tires were recycled, which correspond to 48.12 million of automobile tires. The activities of laminating, grinding and manufacturing of rubber artifacts represented 50.02% of the total; the co-processing in clinker ovens represented 35.73%; the synthetic rubber regeneration represented 13.22% while 1.03% was used in the extraction and treatment of minerals.


    Lidiane Bittencourt Barroso


    Full Text Available The water availability was exceeded by demand, becoming a limiting factor in irrigated agriculture. This study aimed to provide a general theoretical framework on the issue of water reuse for agricultural purposes. This is due to the fact that we need a prior knowledge of the state of the art concerning the matter. To that end, we performed a review of irrigated agriculture, the effects on cultivated land and the development of agricultural crops as well as aspects of security to protect groups at risk. The amount of macro and micronutrients in the effluent may reduce or eliminate the use of commercial fertilizers. And this addition of organic matter acts as a soil conditioner, increasing its capacity to retain water. Depending on the characteristics of sewage, the practice of irrigation for long periods may lead to accumulation of toxic compounds and the significant increase of salinity. The inhibition of plant growth by salinity may be due to osmotic effect, causing drought and / or specific effects of ions, which can cause toxicity or nutritional imbalance. The minimization of human exposure to the practice of agricultural reuse is based on a set of mitigation measures that must be implemented by the authorities responsible for operating and monitoring systems for water recycling. It is concluded that the use of sewage depends on management of irrigation, monitoring of soil characteristics and culture.

  12. Direct Reuse of Rare Earth Permanent Magnets—Coating Integrity

    Høgberg, Stig; Holbøll, Joachim; Mijatovic, Nenad


    Rare earth permanent magnets can be reused directly as an alternative to traditional recycling methods, in which scrapped magnets are reprocessed into new magnets by undergoing many of the original energy-intensive and expensive production processes. Direct reuse entails using segmented magnet...

  13. Sustainable Materials Management (SMM) - Recycling Economic Information (REI) Report

    U.S. Environmental Protection Agency — The 2016 Recycling Economic Information (REI) Report aims to increase the understanding of the economic implications of material reuse and recycling. The report...

  14. Design by recycling

    Catalli, V. [By Design Consultants, Ottawa, ON (Canada)


    A 'cradle to cradle' concept of building materials' lifecycle is presented in an effort to highlight the advantages of designing buildings in such a way as to ensure sound waste management strategies and practices, facilitate future renovation and demolition by reducing the generation of wastes, and allow for individual materials to be reused and recycled for use in new projects or products, continuing their lifecycle by diverting them from landfill. Some techniques to achieve these objectives include (1) avoidance of concealed, fixed connections, (2) use of reversible type connections, (3) use of materials that have an inherent finish, (4) use of simplified assemblies and modular materials. Examples of 'design for recycling' are cited, including Ottawa's Grace Hospital for the waste management program developed for use during its demolition, and the Mountain Equipment Co-Op for various features such as exposed timber posts with bolted connections, removable interior partitions with inherent finishes and exposed removable light and electrical fixtures. tabs., figs.

  15. Processing of combined domestic bath and laundry waste waters for reuse as commode flushing water

    Hypes, W. D.; Batten, C. E.; Wilkins, J. R.


    An experimental investigation of processes and system configurations for reclaiming combined bath and laundry waste waters for reuse as commode flush water was conducted. A 90-min recycle flow was effective in removing particulates and in improving other physical characteristics to the extent that the filtered water was subjectively acceptable for reuse. The addition of a charcoal filter resulted in noticeable improvements in color, turbidity, and suds elimination. Heating and chlorination of the waste waters were investigated for reducing total organism counts and eliminating coliform organisms. A temperature of 335.9 K (145 F) for 30 min and chlorine concentrations of 20 mg/l in the collection tank followed by 10 mg/l in the storage tank were determined to be adequate for this purpose. Water volume relationships and energy-use rates for the waste water reuse systems are also discussed.

  16. Recycling and Reuse of Radioactive Materials

    O'Dou, Thomas Joseph


    The Radiochemistry Program at the University of Nevada, Las Vegas (UNLV) has a Radiation Protection Program that was designed to provide students with the ability to safely work with radioactive materials in quantities that are not available in other academic environments. Requirements for continuous training and supervision make this unique…

  17. Assessment of opportunities to increase the recovery and recycling rates of waste oils

    Graziano, D.J.; Daniels, E.J.


    Waste oil represents an important energy resource that, if properly managed and reused, would reduce US dependence on imported fuels. Literature and current practice regarding waste oil generation, regulations, collection, and reuse were reviewed to identify research needs and approaches to increase the recovery and recycling of this resource. The review revealed the need for research to address the following three waste oil challenges: (1) recover and recycle waste oil that is currently disposed of or misused; (2) identify and implement lubricating oil source and loss reduction opportunities; and (3) develop and foster an effective waste oil recycling infrastructure that is based on energy savings, reduced environment at impacts, and competitive economics. The United States could save an estimated 140 {times} 1012 Btu/yr in energy by meeting these challenges.

  18. 中水回用对石化循环冷却水系统的危害及对策%The Harm and Countermeasure of Recycled Water Reused into Circulating Cooling Water System in Petrochemical Plant

    王炜; 魏志朝


    The source,category and disposing process of waste water in oil refining industry were stated.The characteristics of recycled water and influencing factors as make-up water into circulating cooling water system were analyzed,and the processes of reducing%阐述了炼化污水的主要来源、分类和处理过程的差别。分析了中水的主要特点及作为循环冷却水系统补水的危害和主要影响因素。概括了优化循环水系统操作管理以降低中水对系统危害的方法。

  19. New municipal solid waste processing technology reduces volume and provides beneficial reuse applications for soil improvement and dust control

    A garbage-processing technology has been developed that shreds, sterilizes, and separates inorganic and organic components of municipal solid waste. The technology not only greatly reduces waste volume, but the non-composted byproduct of this process, Fluff®, has the potential to be utilized as a s...

  20. Recycling of nonmetallics

    Amey, E.B.; Kelly, T.D.


    The first factor determining recyclability is the composition of the material itself. Metals, for example, can be reused with little or no loss in quality. Paper and rubber, by this criterion, are less recyclable. Each time paper is recycled, some cellulose fibers are broken. Shorter fibers can mean weaker paper of perceived lower quality and value. Vulcanizing is an irreversible chemical process that precludes recycling rubber in its original form. Both materials may be reused in other applications often of lower value than the original one. To be recyclable, the discarded material must have a collection infrastructure at the source of waste generation, at a central collection site, or at curbside. The recovered material must also have a market. If it is priced noncompetitively or no market exists, if it does not meet specifications, or if it requires special technology investments which cannot be recovered through future sales, the recovered material may be stockpiled or discarded rather than recycled. ?? 1996 International Association for Mathematical Geology.

  1. Polymer recycling: potential application of radiation technology

    Burillo, Guillermina; Clough, Roger L. E-mail:; Czvikovszky, Tibor; Guven, Olgun; Le Moel, Alain; Liu Weiwei; Singh, Ajit; Yang Jingtian; Zaharescu, Traian


    Management of solid waste is an important problem, which is becoming progressively worse as a byproduct of continuing economic growth and development. Polymeric materials (plastics and rubbers) comprise a steadily increasing proportion of the municipal and industrial waste going into landfill. Development of technologies for reducing polymeric waste, which are acceptable from the environmental standpoint, and which are cost-effective, has proven to be a difficult challenge due to complexities inherent in the reuse of polymers. Establishing optimal processes for the reuse/recycling of polymeric materials thus remains a worldwide challenge as we enter the new century. Due to the ability of ionizing radiation to alter the structure and properties of bulk polymeric materials, and the fact that it is applicable to essentially all polymer types, irradiation holds promise for impacting the polymer waste problem. The three main possibilities for use of radiation in this application are: (1) enhancing the mechanical properties and performance of recovered materials or material blends, principally through crosslinking, or through surface modification of different phases being combined; (2) treatment causing or enhancing the decomposition of polymers, particularly through chain scission, leading to recovery of either low molecular weight mixtures, or powders, for use as chemical feedstocks or additives; (3) production of advanced polymeric materials designed for environmental compatibility. This paper provides an overview of the polymer recycling problem, describes the major technological obstacles to the implementation of recycling technologies, and outlines some of the approaches being taken. A review of radiation-based recycling research is then provided, followed by a discussion of future directions where irradiation may be relevant to the problems currently inhibiting the widespread recycling of polymeric materials.

  2. Selective dissolution of halide perovskites as a step towards recycling solar cells.

    Kim, Byeong Jo; Kim, Dong Hoe; Kwon, Seung Lee; Park, So Yeon; Li, Zhen; Zhu, Kai; Jung, Hyun Suk


    Most research on perovskite solar cells has focused on improving power-conversion efficiency and stability. However, if one could refurbish perovskite solar cells, their stability might not be a critical issue. From the perspective of cost effectiveness, if failed, perovskite solar cells could be collected and recycled; reuse of their gold electrodes and transparent conducting glasses could reduce the price per watt of perovskite photovoltaic modules. Herein, we present a simple and effective method for removing the perovskite layer and reusing the mesoporous TiO2-coated transparent conducting glass substrate via selective dissolution. We find that the perovskite layer can be easily decomposed in polar aprotic solvents because of the reaction between polar aprotic solvents and Pb(2+) cations. After 10 cycles of recycling, a mesoporous TiO2-coated transparent conducting glass substrate-based perovskite solar cell still shows a constant power-conversion efficiency, thereby demonstrating the possibility of recycling perovskite solar cells.

  3. Selective dissolution of halide perovskites as a step towards recycling solar cells

    Kim, Byeong Jo; Kim, Dong Hoe; Kwon, Seung Lee; Park, So Yeon; Li, Zhen; Zhu, Kai; Jung, Hyun Suk


    Most research on perovskite solar cells has focused on improving power-conversion efficiency and stability. However, if one could refurbish perovskite solar cells, their stability might not be a critical issue. From the perspective of cost effectiveness, if failed, perovskite solar cells could be collected and recycled; reuse of their gold electrodes and transparent conducting glasses could reduce the price per watt of perovskite photovoltaic modules. Herein, we present a simple and effective method for removing the perovskite layer and reusing the mesoporous TiO2-coated transparent conducting glass substrate via selective dissolution. We find that the perovskite layer can be easily decomposed in polar aprotic solvents because of the reaction between polar aprotic solvents and Pb2+ cations. After 10 cycles of recycling, a mesoporous TiO2-coated transparent conducting glass substrate-based perovskite solar cell still shows a constant power-conversion efficiency, thereby demonstrating the possibility of recycling perovskite solar cells.

  4. Increasing productivity through Total Reuse Management (TRM)

    Schuler, M. P.


    Total Reuse Management (TRM) is a new concept currently being promoted by the NASA Langley Software Engineering and Ada Lab (SEAL). It uses concepts similar to those promoted in Total Quality Management (TQM). Both technical and management personnel are continually encouraged to think in terms of reuse. Reuse is not something that is aimed for after a product is completed, but rather it is built into the product from inception through development. Lowering software development costs, reducing risk, and increasing code reliability are the more prominent goals of TRM. Procedures and methods used to adopt and apply TRM are described. Reuse is frequently thought of as only being applicable to code. However, reuse can apply to all products and all phases of the software life cycle. These products include management and quality assurance plans, designs, and testing procedures. Specific examples of successfully reused products are given and future goals are discussed.

  5. Recycling of solid wastes at kindergartens centers

    Mohamed R.M.S.R.


    Full Text Available The present study aimed to conduct an activity on environmental awareness campaign at a kindergarten center, with the children age 4-6 years old. The activity included identify the various types of waste generated at the kindergarten and to realize the conservation practice by participating in simple waste management strategies and an explanation about recycling, reusing and reducing waste (3R. The activity provided the children more awareness about the importance of minimizing the plastic wastes. The activity had created an interesting experience to the young generation through practice activity and has given a light on the nature conservation along their growing years. It can be concluded that the awareness of environmental issues among children have risen up as noted by looking at students physical expression. Children have understood the potential to conserve nature from a simple action which is recycling. After the activity, children’s were able to identify and divide the rubbish.

  6. Tire Recycling


    Cryopolymers, Inc. tapped NASA expertise to improve a process for recycling vehicle tires by converting shredded rubber into products that can be used in asphalt road beds, new tires, hoses, and other products. In conjunction with the Southern Technology Applications Center and Stennis Space Center, NASA expertise in cryogenic fuel-handling needed for launch vehicle and spacecraft operations was called upon to improve the recycling concept. Stennis advised Cryopolymers on the type of equipment required, as well as steps to reduce the amount of liquid nitrogen used in the process. They also guided the company to use more efficient ways to control system hardware. It is estimated that more than 300 million tires nationwide are produced per year. Cryopolymers expects to reach a production rate of 5,000 tires recycled per day.

  7. Limits of Software Reuse

    Holenderski, L.


    Software reuse is considered one of the main techniques to increasesoftware productivity. We present two simple mathematical argumentsthat show some theoretical limits of reuse. It turns out that the increase of productivity due to internal reuse is at most linear, farfrom the needed exponential gr

  8. A Mock-Up Tool for Software Component Reuse Repository

    P.Niranjan; C.V.Guru Rao


    Software Reuse effectiveness can be improved by reducing cost and investment.Software reuse costs can be reduced when reusable components are easy to locate, adaptand integrate into new efficient applications. Reuse is the key paradigm for increasingsoftware quality in the software development. This paper focuses on the implementationof software tool with a new integrated classification scheme to make classification buildof software components and effective software reuse repositories to faci...

  9. Reducing greenhouse gas emissions by recycling plastics and textiles into products

    Korhonen, Marja-Riitta; Dahlbo, Helena


    Waste management generates greenhouse gas emissions. New waste management concepts for reducing these emissions are continuously being developed. In this study the potential of material recovery to reduce greenhouse gas emissions was assessed. The study was divided into two phases. In the first phase the material recovery concepts used in Finland were identified and approximate greenhouse gas emission savings calculations were conducted for some of the concepts. In the second phase two promis...

  10. Sustainability and the Recycling of Words

    Miller, Donna L.; Nilsen, Alleen Pace


    With the mention of "sustainability" and "recycling," most people think about reusing paper, plastic, metal, and glass, but what the authors discovered when they embarked on a word-study unit is that the sustainability movement has also brought about the recycling of words. The authors were team-teaching a language awareness class taken by…

  11. Comparisons of four categories of waste recycling in China's paper industry based on physical input-output life-cycle assessment model.

    Liang, Sai; Zhang, Tianzhu; Xu, Yijian


    Waste recycling for paper production is an important component of waste management. This study constructs a physical input-output life-cycle assessment (PIO-LCA) model. The PIO-LCA model is used to investigate environmental impacts of four categories of waste recycling in China's paper industry: crop straws, bagasse, textile wastes and scrap paper. Crop straw recycling and wood utilization for paper production have small total intensity of environmental impacts. Moreover, environmental impacts reduction of crop straw recycling and wood utilization benefits the most from technology development. Thus, using crop straws and wood (including wood wastes) for paper production should be promoted. Technology development has small effects on environmental impacts reduction of bagasse recycling, textile waste recycling and scrap paper recycling. In addition, bagasse recycling and textile waste recycling have big total intensity of environmental impacts. Thus, the development of bagasse recycling and textile waste recycling should be properly limited. Other pathways for reusing bagasse and textile wastes should be explored and evaluated. Moreover, imports of scrap paper should be encouraged to reduce large indirect impacts of scrap paper recycling on domestic environment. Copyright © 2011 Elsevier Ltd. All rights reserved.

  12. Dry reusing and wet reclaiming of used sodium silicate sand


    Based on the characteristics of used sodium silicate sand and the different use requirements for recycled sand, "dry reusing and wet reclaiming of used sodium silicate sand" is considered as the most suitable technique for the used sand. When the recycled sand is used as support sand, the used sand is only reused by dry process including breaking, screening, dust-removal, etc., and it is not necessary that the used sand is reclaimed with strongly rubbing and scraping method, but when the recycled sand is used as facing sand (or single sand), the used sand must be reclaimed by wet method for higher removal rate of the residual binders. The characteristics and the properties of the dry reused sand are compared with the wet reclaimed sand after combining the different use requirements of support sand and facing sand (or single sand), and above the most adaptive scheme has also been validated.

  13. The use of recycled paper processing residues in making porous brick with reduced thermal conductivity

    SÜTÇÜ, Mücahit; AKKURT, Sedat


    Production of porous and light-weight bricks with reduced thermal conductivity and acceptable compressive strength is accomplished. Paper processing residues were used as an additive to an earthenware brick to produce the pores. SEM-EDS, XRD, XRF and TG-DTA analysis of the paper waste and brick raw material were performed. Mixtures containing brick raw materials and the paper waste were prepared at different proportions (up to 30 wt%). The granulated powder mixtures were compressed in a hydra...

  14. Study on Concrete Containing Recycled Aggregates Immersed in Epoxy Resin

    Adnan Suraya Hani


    Full Text Available In recent decades, engineers have sought a more sustainable method to dispose of concrete construction and demolition waste. One solution is to crush this waste concrete into a usable gradation for new concrete mixes. This not only reduces the amount of waste entering landfills but also alleviates the burden on existing sources of quality natural concrete aggregates. There are too many kinds of waste but here constructions waste will be the priority target that should be solved. It could be managed by several ways such as recycling and reusing the concrete components, and the best choice of these components is the aggregate, because of the ease process of recycle it. In addition, recycled aggregates and normal aggregates were immersed in epoxy resin and put in concrete mixtures with 0%, 5%, 10% and 20% which affected the concrete mixtures properties. The strength of the concrete for both normal and recycled aggregates has increased after immersed the aggregates in epoxy resin. The percentage of water absorption and the coefficient of water permeability decreased with the increasing of the normal and the recycled aggregates immersed in epoxy resin. Generally the tests which have been conducted to the concrete mixtures have a significant results after using the epoxy resin with both normal and recycled aggregates.

  15. Recycling nutrients in algae biorefinery

    Garcia Alba, Laura; Vos, M.P.; Torri, C.; Fabbri, D.; Kersten, Sascha R.A.; Brilman, Derk Willem Frederik


    Algal fuel cells: Repeated nutrient recycling is demonstrated by reusing the aqueous phase obtained from the hydrothermal liquefaction (HTL) of microalgae. This is achieved, for the first time, by performing a complete set of four continuous growth–HTL cycles. Results show similar growth rates in

  16. Techno-economic evaluation of membrane filtration for the recovery and re-use of tanning chemicals.

    Scholz, W; Lucas, M


    The majority of pollution generated from leather manufacturing can be contributed to the inefficiency of chemical use in leather processing and to organic substances derived from the hides during processing. In particular, the overall tanning processes performed in drums can be characterized by a high consumption of water and chemicals, most of which are found in the final wastewater. To ensure full penetration and reaction of chemicals with collagen, chemicals are added in excess and are only partly up-taken by the leather. Significant savings of chemicals can be achieved by recovery and recycling of chemicals and water from part streams, thus reducing environmental impacts. This research formed an integrated approach to investigate and exploit the potential of a closed loop operation for various part streams of tanneries. Each of the process streams was separately collected, treated and purified by membrane technologies to obtain a recyclable liquor which can be re-used operationally. In this way a complete recovery of process liquors can be achieved for immediate operational re-use. Membrane technology has been applied to recover chemicals from un-hairing, vegetable tanning, chrome liquors and to polish saline part streams for re-use. By applying membrane filtration up to 90% of the treated liquors can be recovered giving a remaining concentrate volume of only 10%. The permeate obtained from several process areas contained to a high extent chemicals, which were re-used for leather processing.

  17. Greywater Treatment and Reuse

    Gökhan Ekrem ÜSTÜN


    Full Text Available The aim of this study, to examine grey water treatment and reuse. For this aim, previous literature studies been research on and interpreted. Project began with study of physical, chemical and biological characteristics of the gray water. At the second part; grey water treatment and reuse were examined. At the third part; the technologies used for the methods treatment of gray water were explained. Then from costs and previous studies about grey water reuse were mentioned.

  18. Using biochar in animal farming to recycle nutrients and reduce greenhouse gas emissions

    Schmidt, Hans-Peter; Wilson, Kelpie; Kammann, Claudia


    Charcoal has been used to treat digestive disorder in animals since several thousand years. But only since about 2010 biochar has increasingly been used as regular feed additive in animal farming usually mixed with standard feed at approximately 1% of the daily feed intake. The use of biochar as feed additive has the potential to improve animal health, feed efficiency and the animal-stable environment; to reduce nutrient losses and GHG emissions; and to increase soil organic mater and thus soil fertility. The evaluation of more than 150 scientific papers on feeding (activated) biochar showed in most of the studies and for all investigated livestock species positive effects on parameters like toxin adsorption, digestion, blood values, feed use efficiency and livestock weight gain, meat quality and GHG emissions. The facilitation of direct electron transfers between different species of bacteria or microbial consortia via the biochar mediator in the animal digestion tract is hypothesized to be the main reason for a more energy efficient digestion and thus higher feed efficiency, for its selective probiotic effect, for reduced N-losses and eventually for less GHG emissions. While chicken, pigs, fish and other omnivore animals provoke GHG-emissions (mainly NH3, CH4, N2O) when their liquid and solid excretions decompose anaerobically, ruminants cause direct methane emissions through flatulence and burps (eructation). Preliminary studies demonstrated that feeding high temperature biochars might reduce ruminant CH4 emissions though more systematic research is needed. It is likely that microbial decomposition of manure containing digested biochar produces less ammonia, less methane and thus retain more nitrogen, as seen when manure was composted with and without biochar or when biochar is used as bedding or manure treatment additive. Laboratory adsorption trials estimated that using biochar for liquid manure treatment could safe 57,000 t NH4 and 4,600 t P2O5 fertilizer per

  19. Recycling Paper Recycling

    Martin A. Hubbe


    Full Text Available What do you do after a product has served its function and is no longer needed? Ideally, you recycle it. What do you do if people have neglected or forgotten so much of what has been learned in recent years about paper recycling? Well, one of the things that someone can do is to write a book. Very little of the contents of such a book may be new. But the book itself can be highly valuable, representing a lot of effort to select and organized material that will be helpful for the current and upcoming generations of papermaking technologists. This editorial describes a new book by Dr. Pratima Bajpai entitled Recycling and Deinking of Recovered Paper. Readers who deal with the recycling of paper will probably want to have a copy of it on a handy shelf.

  20. Waste Plastics Recycling and Reuse Technology Situation and Development Trend in China%我国废旧塑料的资源再利用现状与发展趋势

    张雪; 张承龙


    通过对当前我国废旧塑料资源再利用现状的研究,分析和对比了不同废旧塑料资源再利用方法的工艺和特点,并且对废旧塑料处理的发展趋势做出了预测。%Through the study of the current status of waste plastic recycling, the processes and characteristics of different methods of recycling waste plastics are analyzed and compared, and the development trend of waste plastics processing is forecast.

  1. Membrane process treatment for greywater recycling: investigations on direct tubular nanofiltration.

    Hourlier, F; Massé, A; Jaouen, P; Lakel, A; Gérente, C; Faur, C; Cloirec, P Le


    On-site greywater recycling and reuse is one of the main ways to reduce potable water requirement in urban areas. Direct membrane filtration is a promising technology to recycle greywater on-site. This study aimed at selecting a tubular nanofiltration (NF) membrane and its operating conditions in order to treat and reuse greywater in buildings. To do so, a synthetic greywater (SGW) was reconstituted in order to conduct experiments on a reproducible effluent. Then, three PCI NF membranes (AFC30, AFC40 and AFC80) having distinct molecular weight cut-offs were tested to recycle this SGW with a constant concentration at 25°C at two different transmembrane pressures (20 and 35 bar). The best results were obtained with AFC80 at 35 bar: the flux was close to 50 L m⁻²  h⁻¹, retentions of 95% for chemical oxygen demand and anionic surfactants were observed, and no Enterococcus were detected in the permeate. The performances of AFC80 were also evaluated on a real greywater: fluxes and retentions were similar to those observed on SGW. These results demonstrate the effectiveness of direct nanofiltration to recycle and reuse greywater.




    The objective of this study was to determine what financial return, if any, DOE would realize if they invest solely in removal of the asbestos from these three Hanford steam plants and the associated large bore distribution piping at the site. Once the asbestos was removed the strategy was to bring in companies that specialize in salvage and material re-use and have them remove, at no cost to DOE, the plants and the associated large bore piping. The salvage companies we contacted had said that if they didn't have to remove asbestos, they may be able to realize enough value from these plants to offset their demolition and/or dismantling cost. The results were not what we expected but they do offer DOE some favorable financial alternatives to their present approach. The study concluded that there was very little salvage and/or re-use value remaining in the steam plant material that could be used to offset the demolition and/or dismantling cost. The notable exception to this is the removal of the 24 inch steam piping that runs from 200E to 200W areas (see IDM executive summary under Dismantling cost). It is estimated that the re-use value of the 24-inch piping would more than pay for the dismantling cost of this piping. On a more favorable note, it does appear as though the cost of conventional demolition can be reduced by a factor of 3 to 5 if the asbestos is removed first and the demolition is performed using competitive and commercial practices. Both estimates in this study are similar except that IDM did not include floor slab removal nor remove the same quantity of piping. This is why we are using a range of 3 to 5 as a reduction factor. The IDM estimate (using union labor) for demolition after removal of asbestos was approximately $1.5M versus $10.0M for accomplishing the work using Hanford practices and rates.

  3. An overview of reclaimed water reuse in China

    Lili Yi; Wentao Jiao; Xiaoning Chen; Weiping Chen


    China is facing severe water problems including scarcity and pollution which are now becoming key factors restricting developments.Creating an alternative water resource and reducing effluent discharges,water reuse has been recognized as an integral part of water and wastewater management scheme in China.The government has launched nationwide efforts to optimize the benefits of utilizing reclaimed water.This article reviewed the water reuse activities in China,including:(1) application history and current status; (2)potentials of reclaimed water reuse; (3) laws,policies and regulations governing reclaimed water reuse; (4) risks associated with reclaimed water reuse; (5) issues in reclaimed water reuse.Reclaimed water in Beijing and Tianjin were given as examples.Suggestions for improving the efficiencies of reusing urban wastewater were advanced.Being the largest user of reclaimed wastewater in the world,China's experience can benefit the development of water reuse in other regions.

  4. Reuse and Recovery of Waste Plastic%废弃塑料的回收利用



    The present situation of the reuse and recovery of waste plastics were reviewed, including the reuse and recovery of waste PP, PE, PVC, PS and PET. It is in order to realize the protection of human health and reduce the pollution of the environment and resources recycling purpose.%论述了目前废弃塑料回收利用方面的发展现状,介绍了聚丙烯、聚乙烯、聚对苯二甲酸乙二醇酯、聚氯乙烯、聚苯乙烯等废弃塑料的回收利用方法,以实现保护人类健康和减少环境污染和资源循环使用的目的。

  5. Reuse of hydroponic waste solution.

    Kumar, Ramasamy Rajesh; Cho, Jae Young


    Attaining sustainable agriculture is a key goal in many parts of the world. The increased environmental awareness and the ongoing attempts to execute agricultural practices that are economically feasible and environmentally safe promote the use of hydroponic cultivation. Hydroponics is a technology for growing plants in nutrient solutions with or without the use of artificial medium to provide mechanical support. Major problems for hydroponic cultivation are higher operational cost and the causing of pollution due to discharge of waste nutrient solution. The nutrient effluent released into the environment can have negative impacts on the surrounding ecosystems as well as the potential to contaminate the groundwater utilized by humans for drinking purposes. The reuse of non-recycled, nutrient-rich hydroponic waste solution for growing plants in greenhouses is the possible way to control environmental pollution. Many researchers have successfully grown several plant species in hydroponic waste solution with high yield. Hence, this review addresses the problems associated with the release of hydroponic waste solution into the environment and possible reuse of hydroponic waste solution as an alternative resource for agriculture development and to control environmental pollution.

  6. Pyrolysis Gas as a Renewable Reducing Agent for the Recycling of Zinc- and Lead-Bearing Residues: A Status Report

    Pichler, C.; Antrekowitsch, J.


    The topic "Zero Waste" has been in existence for several years in the industry, and the metallurgical industry has also made efforts to reduce the amounts of residues occurring and have started several investigations to cut down on metallurgical by-products which have to be landfilled. Especially, the additional costs for CO2 emissions in different metallurgical steps have led to investigations into alternative carbon carriers. Charcoal has been identified to serve as an ideal substitute due its CO2-neutrality. For the applications of this renewable carbon carrier in metallurgical processes, charcoal production by means of a carbonization process needs to be optimized. As a by-product during the heating of agricultural wastes or wood by excluding air, pyrolysis gas occurs. Due to the existence of combustible compounds in this gas, an application as a reduction agent instead of fossil carbon carriers in metallurgy is possible. Based on the prevention of dumping metallurgical by-products, an investigation has been developed to treat zinc- and lead-containing materials. To realize this, a dedicated process concept has been designed and developed. As the main focuses, the usage of the pyrolysis gas from charcoal production for the Waelz kiln process and the recycling of zinc- and lead-containing Waelz slag, resulting from the processing of steel mill dust in a vertical retort, have to be mentioned. Within this research, the process concept was executed from laboratory-scale up to pilot-scale testing, described in this article.

  7. Recycling of demolished concrete

    Nagataki, S. [Niigata Univ., Niigata (Japan). Dept. of Civil Engineering; Iida, K. [Technology Centre of Taisei Corp., Yokohama (Japan)


    There is a significant amount of research being conducted in Japan on ways to recycle demolished concrete. The material is already being used for road bases and foundations, but in the future, the concrete will have to be recycled as concrete aggregate. Recycling may also include the cement in the concrete in order to address the issue of global warming and carbon dioxide reductions. This initiative is in response to predictions that in the future there will be tremendous quantities of demolished concrete to deal with. Recycling of cement is also necessary in terms of resolving environmental problems and promoting sustainable development. The properties of concrete made with recycled aggregates were described and were compared with original concrete made of known materials. The paper also proposed an approach that should be taken to recycling concrete in the twenty-first century in which reduced limestone was used to reclaim cement. Recycled concrete with cement requires more energy, but uses less resources and discharges less carbon dioxide. Currently, recycled aggregate does not meet the Japanese Industrial Standard for concrete aggregate. The resistance to freeze/thaw cycles was not adequate. The amount of mortar adhered to the recycled aggregate had little affect on the strength and durability of recycled concrete. It was concluded that the quality of recycled concrete aggregate depends on the quality of original concrete. 11 refs., 12 tabs., 11 figs.

  8. Enzyme recycling in lignocellulosic biorefineries

    Jørgensen, Henning; Pinelo, Manuel


    platform. Cellulases are the most important enzymes required in this process, but the complex nature of lignocellulose requires several other enzymes (hemicellulases and auxiliary enzymes) for efficient hydrolysis. Enzyme recycling increases the catalytic productivity of the enzymes by reusing them...... upscaled and tested in industrial settings, mainly because of many difficulties with recycling of enzymes from the complex lignocellulose hydrolyzate at industrially relevant conditions, i.e., high solids loadings. The challenges are associated with the large number of different enzymes required...... for efficient hydrolysis, enzyme stability, and the detrimental interaction between enzyme and lignin. This review provides a comprehensive overview of the various methods for enzyme recovery and recycling, for example recycling of free enzymes, readsorption to fresh material, recycling of solids, membrane...

  9. Bayesian policy reuse

    Rosman, Benjamin


    Full Text Available to the label of any given instance, it can choose to act through a process of policy reuse from a library in contrast to policy learning. In policy reuse, the agent has prior experience from the class of tasks in the form of a library of policies that were...

  10. Water Reclamation and Reuse.

    Smith, Daniel W.


    Presents a literature review of water reclamation and reuse. This review covers: (1) water resources planning; (2) agriculture and irrigation; (3) ground recharge; (4) industrial reuse; (5) health considerations; and (6) technology developments. A list of 217 references is also presented. (HM)

  11. 工业循环经济的4R原则%The 4R-Rules of Recycling Economy in Industry



    Traditional 3R-rules have been regarded as behaviour rules for developing recycling economy. However. with the development of modern advanced manufacturing techniques, the important value of remanufacturtng in promoting recycling economy has been given more and more attention to in recent years. Remanufacturing engineering technology, which utilizes advanced surface engineering and forming technology, produces directly with useable components of scraped machines. It can conserve the most of materials (about 85%-95%) and energy (about 80-85%) of original products with less pollution. By remanufacturing, we can reduce resources' consumption under the condition of meeting the needs of social and economic development. Remanufacturing is an advanced method for recycling economy in industry. Therefore, we think that the rules of recycling economy in industry could be extended from 3R-rules to 4R-rules. The 4R-rules' optimal sequence would be reduce,reuse, remanufacture, and recycle.

  12. The Efficiency of Informality: Quantifying Greenhouse Gas Reductions from Informal Recycling in Bogotá, Colombia

    Vergara, Sintana E.; Damgaard, Anders; Gomez, Daniel


    replaced their informal recycling sectors with municipally run recycling schemes and have had to build their recycling rates anew, most industrializing cities in the Global South remain centers of recycling and reuse through the work of informal workers. Bogotá, Colombia, is emblematic of many cities...

  13. 初探国内外废旧服装回收再利用发展现状*%Status Quo of Reuse and Recycle of Clothes in China and Overseas

    杨小娟; 王小雷


      基于废旧衣物的回收再利用角度出发,大量的废旧纺织品以及废旧服装被当作垃圾掩埋、焚烧,这既造成了资源浪费,同时也污染了环境。以探讨国内废旧服装回收再利用发展现状为主要研究对象,通过阐述国内外主要回收方式、回收模式、以及产生的社会效应以及相关国家循环政策,对我国废旧服装回收再利用发展现状做一个再思考和研究,为推动我国废旧服装回收再利用提供参考和依据。%Based on the old clothes recycling point of view, a lot of waste textiles and waste clothing were used as landfill, incineration, this not only caused the waste of resources, but also polluted the environment, and discusses the development status of domestic waste clothing recycling as the main research object. Through this way at home and abroad mainly recovery, recovery mode, and the social effect and related national policy, to our old clothes recycling do a rethinking current situation of the development and research, to promote China’s old clothes recycling provides reference and basis.

  14. Market-Smart Deconstruction and Material Recovery at Brownfield Sites: How to Identify and Reuse Existing Materials Found at Brownfield Sites


    steel siding materials can be recycled as scrap. Flashing & Sheet Metal Recyclable Galvanized and coated steel , stainless steel , and aluminum...separated. Ductwork Recyclable Galvanized steel and stainless steel ductwork can be recycled as scrap. Remove insulation. Fans Reusable Ventilation...Exterior poles can be removed and reused. Recyclable Steel and aluminum poles and bracket arms can be recycled as scrap. Aluminum is a valuable

  15. Urban water recycling.

    Asano, T


    Increasing urbanization has resulted in an uneven distribution of population, industries, and water in urban areas; thus, imposing unprecedented pressures on water supplies and water pollution control. These pressures are exacerbated during the periods of drought and climatic uncertainties. The purpose of this paper is to summarize emergence of water reclamation, recycling and reuse as a vital component of sustainable water resources in the context of integrated water resources management in urban and rural areas. Water quality requirements and health and public acceptance issues related to water reuse are also discussed. Reclaimed water is a locally controllable water resource that exists right at the doorstep of the urban environment, where water is needed the most and priced the highest. Closing the water cycle loop not only is technically feasible in agriculture, industries, and municipalities but also makes economic sense. Society no longer has the luxury of using water only once.


    Eugênio de Oliveira Simonetto


    Full Text Available Recycling is a topic of great importance in integrated waste management, evidence of this is verified in the National Policy of Solid Waste, decreed in 2010, where it is considered one of the priorities. In this article is presented a computer simulation model, since their development until its validation, which aims to support environmental managers in their decisions regarding the definition and / or maintenance of solid waste policies recycling, as well as evaluating the benefits of process in the environment (in this article we evaluated the energy savings. For the model development was considered: the rate of natural population growth (births and deaths, percentage of solid waste recycled (for each type of material, gravimetric composition of the material in the total waste generated, the amount of waste generated per inhabitant and energy savings caused by each distinct type of material. Through the model results generated, end users (environmental managers thereof may, for example, set incentives to reduce the total generation of solid waste, produce campaigns enhancing reuse and recycling and to assess the relative benefits of energy savings caused by recycling. Model validation was through analysis of future scenarios for a given municipality in southern Brazil. For modeling and system validation was used Vensim from Ventana Systems.

  17. Resource Recovery and Reuse in Organic Solid Waste Management

    Lens, P.N.L.; Hamelers, H.V.M.; Hoitink, H.; Bidlingmaier, W.


    Uncontrolled spreading of waste materials leads to health problems and environmental damage. To prevent these problems a waste management infrastructure has been set to collect and dispose of the waste, based on a hierarchy of three principles: waste prevention, recycling/reuse, and final disposal.

  18. Water management and reuse opportunities in a thermal power ...

    African Journal of Biotechnology ... It was found that 131 m3/d of the wastewater were of high quality and could be recycled inside the ... were provided for better operation of the water treatment systems and for reuse of the industrial water.

  19. Resource Recovery and Reuse in Organic Solid Waste Management

    Lens, P.N.L.; Hamelers, H.V.M.; Hoitink, H.; Bidlingmaier, W.


    Uncontrolled spreading of waste materials leads to health problems and environmental damage. To prevent these problems a waste management infrastructure has been set to collect and dispose of the waste, based on a hierarchy of three principles: waste prevention, recycling/reuse, and final disposal.

  20. Reuse of process water in a waste-to-energy plant: An Italian case of study.

    Gardoni, Davide; Catenacci, Arianna; Antonelli, Manuela


    The minimisation of water consumption in waste-to-energy (WtE) plants is an outstanding issue, especially in those regions where water supply is critical and withdrawals come from municipal waterworks. Among the various possible solutions, the most general, simple and effective one is the reuse of process water. This paper discusses the effectiveness of two different reuse options in an Italian WtE plant, starting from the analytical characterisation and the flow-rate measurement of fresh water and process water flows derived from each utility internal to the WtE plant (e.g. cooling, bottom ash quenching, flue gas wet scrubbing). This census allowed identifying the possible direct connections that optimise the reuse scheme, avoiding additional water treatments. The effluent of the physical-chemical wastewater treatment plant (WWTP), located in the WtE plant, was considered not adequate to be directly reused because of the possible deposition of mineral salts and clogging potential associated to residual suspended solids. Nevertheless, to obtain high reduction in water consumption, reverse osmosis should be installed to remove non-metallic ions (Cl(-), SO4(2-)) and residual organic and inorganic pollutants. Two efficient solutions were identified. The first, a simple reuse scheme based on a cascade configuration, allowed 45% reduction in water consumption (from 1.81 to 0.99m(3)tMSW(-1), MSW: Municipal Solid Waste) without specific water treatments. The second solution, a cascade configuration with a recycle based on a reverse osmosis process, allowed 74% reduction in water consumption (from 1.81 to 0.46m(3)tMSW(-1)). The results of the present work show that it is possible to reduce the water consumption, and in turn the wastewater production, reducing at the same time the operating cost of the WtE plant. Copyright © 2015 Elsevier Ltd. All rights reserved.

  1. Reuse rate of treated wastewater in water reuse system

    FAN Yao-bo; YANG Wen-bo; LI Gang; WU Lin-lin; WEI Yuan-song


    A water quality model for water reuse was made by mathematics induction. The relationship among the reuse rate of treated wastewater(R), pollutant concentration of reused water( Cs ), pollutant concentration of influent( C0 ), removal efficiency of pollutant in wastewater(E), and the standard of reuse water were discussed in this study. According to the experiment result of a toilet wastewater treatment and reuse with membrane bioreactors, R would be set at less than 40%, on which all the concerned parameters could meet with the reuse water standards. To raise R of reuse water in the toilet, an important way was to improve color removal of the wastewater.

  2. Desulfurization in Reducing Atomosphere and Ammonia Injection Denitrification in a Coal—Fired Fluidized Bed COmbustor with FLy—Ash Recycle

    ZhongZhaoping; ZhengHaiyun


    With the rising of IGCC and the second generation PFBC-CC,and with the development of tech-nology of staged combustion to lower emission of NOx,the desulfurization efficiency under reducing atmosphere is raised.In this paper,with the application of the fly-ash recycle and two-stage combustion technologies in a fluidized bed combustor,the desulfurization test under reducing atmosphere is described.Meanwhile,ammonia injection test was also conducted.Results show that desulfurization under reducing atmosphere has higher efficiency,and amoonia injection denitrification effect is very perfect.

  3. Preparation of Reducing Sugar Hydrolyzed from High-Lignin Coconut Coir Dust Pretreated by the Recycled Ionic Liquid [mmim][dmp] and Combination with Alkaline

    Hanny Frans Sangian


    Full Text Available This study aims to produce reducing sugar hydrolyzed from substrate, coconut coir dust pretreated by recycled ionic liquid and its combination with alkaline. The 1H NMR and FTIR were performed to ver-ify the synthesized ionic liquid methylmethylimidazolium dimethyl phosphate ([mmim][dmp]. The structure of pretreated substrates was analyzed by XRD measurement. The used ionic liquid was recy-cled twice to re-employ for substrate pretreatment. The treated- and untreated-coconut coir dust were hydrolyzed into sugars using pure cellulase. The reaction, which called an enzymatic hydrolysis, was conducted at 60 °C, pH 3, for 48 h. The yields of sugar hydrolyzed from fresh IL-pretreated, 1R*IL-pretreated and 2R*IL-pretreated substrates were of 0.19, 0.15 and 0.15 g sugar / g cellu-lose+hemicellulose, respectively. Pretreatment with NaOH or the combination of NaOH+IL resulted in yields of reducing sugars of 0.25, 0.28 g/g, respectively. When alkaline combined with the recycled ionic liquids, NaOH+1R*IL, NaOH+2R*IL in the pretreatment, the yields of sugar were relatively similar to those obtained using alkaline followed by fresh ionic liquid. If the mixture enzymes, cellu-lase+xylanase, used to liberate sugars from fresh IL-pretreated, or recycled IL-pretreated substrates, the amount of sugar (concentration or yield increased slightly compared to that employing a single cel-lulase. These findings showed that recycled IL pretreatment of the high-lignin lignocellulose, coconut coir dust, is a new prospect for the economical manufacture of fermentable sugars and biofuel in the coming years. © 2015 BCREC UNDIP. All rights reservedReceived: 1st July 2014; Revised: 5th September 2014; Accepted: 5th September 2014 How to Cite: Sangian, H.F., Kristian, J., Rahma, S., Dewi, H., Puspasari, D., Agnesty, S., Gunawan, S., Widjaja, A. (2015. Preparation of Reducing Sugar Hydrolyzed from High-Lignin Coconut Coir Dust Pretreated by the Recycled Ionic Liquid [mmim

  4. Water Reuse: Using Reclaimed Water For Irrigation

    Haering, Kathryn C.; Evanylo, Gregory K.; Benham, Brian Leslie, 1960-; Goatley, Michael


    Describes water reuse and reclaimed water, explains how reclaimed water is produced, options for water reuse, water reuse regulations, and agronomic concerns with water reuse, and provides several case studies of water reuse.

  5. Research and the Application of Water Reuse Recycle Cooling Water System%中水回用循环冷却水系统研究及现场应用

    张少松; 曹培宽; 白小明


    The paper studied the water treatment chemicals that were successfully used in the cycle cooling water system. Recycled water was used in the cycle cooling water system as supplement water in this system, and examined the site operation in a thermo electron corporation of Tianjin economic development zone. In addition, the performance factors were analyzed of cycle cooling water system. Practice had proved that recycled water as supplement water for the circulating water system was successful about 5 years.%针对滨海新区中水水质,研究了适应天津经济技术开发区某热电公司应用的中水水质、系统材质和工况条件的水处理药剂及其配套高浓缩倍率水处理技术,并应用于现场运行控制。通过对近五年现场应用结果进行深入总结分析,说明中水回用于循环水系统处理技术是成功的,取得明显的经济效益和社会效益。

  6. Water use and its recycling in microalgae cultivation for biofuel application.

    Farooq, Wasif; Suh, William I; Park, Min S; Yang, Ji-Won


    Microalgal biofuels are not yet economically viable due to high material and energy costs associated with production process. Microalgae cultivation is a water-intensive process compared to other downstream processes for biodiesel production. Various studies found that the production of 1 L of microalgal biodiesel requires approximately 3000 L of water. Water recycling in microalgae cultivation is desirable not only to reduce the water demand, but it also improves the economic feasibility of algal biofuels as due to nutrients and energy savings. This review highlights recently published studies on microalgae water demand and water recycling in microalgae cultivation. Strategies to reduce water footprint for microalgal cultivation, advantages and disadvantages of water recycling, and approaches to mitigate the negative effects of water reuse within the context of water and energy saving are also discussed.

  7. Direct Reuse of Rare Earth Permanent Magnets - Wind Turbine Generator Case Study

    Högberg, Stig; Pedersen, Thomas Stigsberg; Bendixen, Flemming Buus;


    A novel recycling strategy, direct reuse, for rare earth permanent magnets were investigated in this article. Direct reuse uses small, unit-cell (segmented) magnets to replace the normal solid pole configuration, which is not directly reusable due its unique shape and size. The unit-cell magnets...... are directly reusable due to their standard shape and size, and direct reuse effectively bypasses a number of the expensive and energy intensive processes of normal recycling. Based on a model of a 3 MW direct drive wind turbine generator, the finite element studies concluded that normal values of average...

  8. Waste reduction and recycling initiatives in Japanese cities: lessons from Yokohama and Kamakura.

    Hotta, Yasuhiko; Aoki-Suzuki, Chika


    Waste reduction and recycling at the city level will acquire greater significance in the near future due to rising global volumes of waste. This paper seeks to identify policy-relevant drivers for successful promotion of waste reduction and recycling. Factors influencing the success of waste reduction and recycling campaigns are identified. Two case study cities in Japan which depict the successful use of the 3Rs (reduce, reuse and recycle) at the municipal level are presented. In these cases, the existence of incinerators, which are generally considered as disincentives for recycling, was not functioning as a disincentive but rather as an incentive for waste reduction. Owing to the high cost of incineration facilities, the movement to close incinerators has become a strong incentive for waste reduction and recycling in these two cities. The study suggests that careful consideration is necessary when making decisions concerning high-cost waste treatment facilities with high installation, maintenance and renewal outlays. In addition, intensive source separation and other municipal recycling initiatives have a high potential for producing positive results.

  9. Evaluation of dry solid waste recycling from municipal solid waste: case of Mashhad city, Iran.

    Farzadkia, Mahdi; Jorfi, Sahand; Akbari, Hamideh; Ghasemi, Mehdi


    The recycling for recovery and reuse of material and energy resources undoubtedly provides a substantial alternative supply of raw materials and reduces the dependence on virgin feedstock. The main objective of this study was to assess the potential of dry municipal solid waste recycling in Mashhad city, Iran. Several questionnaires were prepared and distributed among various branches of the municipality, related organizations and people. The total amount of solid waste generated in Mashhad in 2008 was 594, 800  tons with per capita solid waste generation rate of 0.609  kg  person(-1) day(-1). Environmental educational programmes via mass media and direct education of civilians were implemented to publicize the advantages and necessity of recycling. The amount of recycled dry solid waste was increased from 2.42% of total dry solid waste (2588.36  ton  year(-1)) in 1999 to 7.22% (10, 165  ton  year(-1)) in 2008. The most important fractions of recycled dry solid waste in Mashhad included paper and board (51.33%), stale bread (14.59%), glass (9.73%), ferrous metals (9.73%), plastic (9.73%), polyethylene terephthalate (2.62%) and non-ferrous metals (0.97%). It can be concluded that unfortunately the potential of dry solid waste recycling in Mashhad has not been considered properly and there is a great effort to be made in order to achieve the desired conditions of recycling.

  10. Mechanical recycling of waste electric and electronic equipment: a review.

    Cui, Jirang; Forssberg, Eric


    The production of electric and electronic equipment (EEE) is one of the fastest growing areas. This development has resulted in an increase of waste electric and electronic equipment (WEEE). In view of the environmental problems involved in the management of WEEE, many counties and organizations have drafted national legislation to improve the reuse, recycling and other forms of recovery of such wastes so as to reduce disposal. Recycling of WEEE is an important subject not only from the point of waste treatment but also from the recovery of valuable materials.WEEE is diverse and complex, in terms of materials and components makeup as well as the original equipment's manufacturing processes. Characterization of this waste stream is of paramount importance for developing a cost-effective and environmentally friendly recycling system. In this paper, the physical and particle properties of WEEE are presented. Selective disassembly, targeting on singling out hazardous and/or valuable components, is an indispensable process in the practice of recycling of WEEE. Disassembly process planning and innovation of disassembly facilities are most active research areas. Mechanical/physical processing, based on the characterization of WEEE, provides an alternative means of recovering valuable materials. Mechanical processes, such as screening, shape separation, magnetic separation, Eddy current separation, electrostatic separation, and jigging have been widely utilized in recycling industry. However, recycling of WEEE is only beginning. For maximum separation of materials, WEEE should be shredded to small, even fine particles, generally below 5 or 10mm. Therefore, a discussion of mechanical separation processes for fine particles is highlighted in this paper. Consumer electronic equipment (brown goods), such as television sets, video recorders, are most common. It is very costly to perform manual dismantling of those products, due to the fact that brown goods contain very low

  11. Biomaterials recycling: bioglasses obtained from reuse of hydroxyapatite (HA) bovine bone with term exceeded validity; Reciclagem de biomateriais: biovidros obtidos a partir do reaproveitamento de hidroxiapatita (HA) ossea bovina com prazo de validade excedido

    Silva, A.C.; Santos, S.C.; Braga, F.J.C., E-mail: [Instituto de Pesquisas Energeticas e Nucleares (IPEN/CNEN-SP), Sao Paulo, SP (Brazil); Aparecida, A.H. [Universidade Estadual Paulista Julio de Mesquita Filho (UNESP), Araraquara, SP (Brazil). Inst. de Quimica


    The hydroxyapatite (HA) is a reference bioceramic for bone replacement and regeneration medical practice, becoming one of the most produced and researched bone graft material. Since it is a material for biomedical application, the manufacture and storage of this bioceramic must comply with severe conservation criteria, and its validity date is the lawful major factor for disposal. Materials with the exceeded expiration date are usually discarded and incinerated, resulting in ash, environmental contamination and energy expenditure. This study evaluates the possibility of reuse of bovine HA collected after its validity date as raw material to obtain bioglass, aiming to natural resources saving and environmental emissions mitigation. 45S5 similar compositions were obtained by melting the materials at 1500 ° C, followed by rapid cooling and annealing thermal treatment (500 ° C for 2h), analytical grade chemical reagents were used to set the final composition. The obtained materials were characterized by X-ray diffraction, infrared spectroscopy (FT-IR), and hydrolysis resistance techniques. The results of comparative chemical resistance (Hydrolytic) tests indicate the potential use of the materials developed for bone replacement applications. (author)

  12. Reclamation and reuse of distributed wastewater and programming based on cost analysis

    HE Jun-guo; HAN Bao-ping; XU Chun-sheng; LI Ke; ZHANG Jie


    In order to improve the water environment of Songhua River,develop and maintain a healthy water cycle,the article has made theoretical and mathematical analyses of wastewater treatment and reuse.It proposes that the important link of sustainable utilization of urban water resources is wastewater treatment and reuse,and the main approach of sustainable utilization of water resources is water saving,wastewater reclamation and reuse.Through establishing the cost equation of recycle water system and optimizing it by Matlab,an optimal treatment scale of the city recycle distributed wastewater system is obtained.The principles of recycle water system in northern areas are put forward based on the research of sustainable utilization of water resource in Songbei district.The results can provide experiences and references for water saving,wastewater reclamation and reuse in northern cities of China.

  13. Recycling Status of Raw Household Garbage in Local Governments : From the Perspective of Social Technology

    中村, 修; 和田, 真理


    The argument about the creation of a recycling-oriented society is growing. However, there is no organized study about the recycling business of raw garbage, which is to be the base of food recycling that reuses raw garbage as resource. Given this factor, We have examined the development of the recycling business of raw garbage from the social technology perspective and added my analysis in this report. As a result, the necessity of social technology for recycling such as the separating metho...

  14. Energetic reuse: use of biogas from the organic matter as an alternative source to recycle plastics and supply cycle diesel engines; Reaproveitamento energetico: uso do biogas proveniente da materia organica como fonte alternativa para reciclar plasticos e alimentar motores do ciclo Diesel

    Carneiro, Priscila Alves; Santos, Rodolfo Esmarady Rocha dos [Universidade Federal de Itajuba (EXCEN/UNIFEI), MG (Brazil). Centro de Excelencia em Eficiencia Energetica


    Population growth and rising purchasing power due to the economic development driving the increased production of waste generated each year. Disposal these wastes is a major economic and environmental challenge, mainly by the concentration of plastics discarded without being used, and organic matter that decompose to produce methane, a major cause of global warming. Recycling waste plastics is a solution to minimize their disposal, but high energy consumption in this process becomes expensive, losing its economically. This leads to search for new alternatives for low cost energy. In the problem of disposal of organic matter may be the solution for recycling these wastes. The decomposition of organic matter produces a fuel (biogas) as a useful source energy to generate electricity required for the recycling process, as well as its use in flex-fuel engines. This system, double-cycle diesel fuel, has advantages not require technical changes in engine design and even the compression ratio. In the condition of dual-fuel, replacement of diesel can be up to 70% due to the use of biogas, but nothing prevents the engine to fire 100% diesel. The implementation of the recycling through the use of energy of urban wastes in Itajuba and the use of biogas on fleets, will bring socio-environmental benefits to the city and consequently the region around. Among these benefits may be pointed generating direct and indirect jobs primarily in the recycling process, reduction of odors at the landfill, mitigation of greenhouse gases, reducing diesel consumption among others. Among these benefits they can be mainly pointed the generation of direct and indirect employments in the recycling process, reduction of scents in the embankment, mitigation of effect gases stews, reduction of the diesel consumption among others. The study contributes to the solution of problems related to the final destination of the residues, for the use of the electric power generated starting from the biogas

  15. Inheritance Hierarchy Based Reuse & Reusability Metrics in OOSD

    Nasib S. Gill,


    Full Text Available Reuse and reusability are two major aspects in object oriented software which can be measured from inheritance hierarchy. Reusability is the prerequisite of reuse but both may or may not bemeasured using same metric. This paper characterizes metrics of reuse and reusability in Object Oriented Software Development (OOSD. Reuse metrics compute the extent to which classes have been reused and reusability metrics computes the extent to which classes can be reused. In this paper five new metrics namely- Breadth of Inheritance Tree (BIT, Method Reuse Per Inheritance Relation (MRPIR,Attribute Reuse Per Inheritance Relation (ARPIR, Generality of Class (GC and Reuse Probability (RP have been proposed. These metrics help to evaluate reuse and reusability of object oriented software.Four extensively validated existing object oriented metrics, namely- Depth of Inheritance Tree (DIT, Number of Children (NOC, Method Inheritance Factor (MIF and Attribute Inheritance Factor (AIFhave been selected and investigated for comparison with proposed metrics. All metrics can be computed from inheritance hierarchies and classified according to their characteristics. Further, metrics areevaluated against a case study. These metrics are helpful in comparing alternative inheritance hierarchies at design time to select best alternative, so that the development time and cost can be reduced.

  16. Application of ultrafiltration in the pulp and paper industry: metals removal and whitewater reuse.

    Oliveira, C R; Silva, C M; Milanez, A F


    In the pulp and paper industry, the water use minimization is a constant target. One way to reduce water use is to recycle the effluent in a closed-cycle concept. In paper mills, the main source of liquid effluent is the so-called whitewater, which is the excess water, originated from pulp stock dewatering and other fibre contaminated water. This research studied the reuse of paper mill whitewater after membrane ultrafiltration (UF) in the paper machine and in the pulp bleach plant of an integrated mill. Contaminant removal and flux behaviour of the UF system were evaluated. The treatment by ultrafiltration was technically feasible and the treated whitewater had good potential to be reused in some processes in the paper machine. The reuse of ultrafiltered whitewater in the bleaching plant was not recommended because of the high level of soluble calcium present in this stream. Therefore, a combined treatment of the whitewater using the principle of precipitation and ultrafiltration was proposed showing good results and enabling the use of the treated whitewater in the bleach plant.

  17. Moving from recycling to waste prevention: A review of barriers and enables.

    Bartl, Andreas


    Current European waste policy does not mainly aim to treat waste streams but rather place in the foreground of interest the complete supply chain of a product. Waste prevention and re-use do have the highest priority and they take effect before the end-of-life phase of a product or a material is reached. Recycling only takes the third place whereas recovery and disposal represent the least favourable options. Recycling can help to decrease the consumption of primary resources but it does not tackle the causes but only the symptoms. In principle, recycling processes require energy and will generate side streams (i.e. waste). Furthermore, there are insuperable barriers and the practice is far from 100% recycling. The philosophy of waste prevention and re-use is completely different since they really tackle the causes. It is self-evident that a decrease of waste will also decrease the consumption of resources, energy and money to process the waste. However, even if European legislation is proceeding in the right direction, a clear decrease in waste generation did not occur up to now. Unfortunately, waste generation represents a positive factor of economic growth. Basically, waste generation is a huge business and numerous stakeholders are not interested to reduce waste. More sophisticated incentives are required to decouple economic growth from waste generation.

  18. Promoter reuse in prokaryotes

    Nijveen, H.; Matus-Garcia, M.; Passel, van M.W.J.


    Anecdotal evidence shows promoters being reused separate from their downstream gene, thus providing a mechanism for the efficient and rapid rewiring of a gene’s transcriptional regulation. We have identified over 4000 groups of highly similar promoters using a conservative sequence similarity search

  19. Aligning the economic modeling of software reuse with reuse practices

    Postmus, D.; Meijler, 27696


    In contrast to current practices where software reuse is applied recursively and reusable assets are tailored trough parameterization or specialization, existing reuse economic models assume that (i) the cost of reusing a software asset depends on its size and (ii) reusable assets are developed from

  20. 基于超滤处理工艺的洗车废水循环利用技术%Recycling and Reuse Technology of Car Washing Wastewater Based on Ultrafiltration Treatment Process

    马传军; 牟桂芹; 郭亚逢; 周志国


    As pretreatment processes,coagulation and sedimentation-sand filtration and single sand filtration were compared by using ultrafiltration as key treatment process of car washing wastewater.Removal rates of turbidity from both processes were 99.4 % and 99.1%.Removal rates of COD were 69.5 % and 53.4 %.Removal rates of anionic surfactant were 69.2 % and 27.6 %.The results showed that the recycling method of car washing wastewater based on ultrafiltration technology was feasible under the condition of reasonable pretreatment processes.%以超滤为核心工艺处理洗车废水,对比了采用混凝沉淀-砂滤和单独采用砂滤作为预处理时的出水指标,两种工艺对浊度的去除率分别为99.4%和99.1%,对COD的去除率为69.5%和53.4%,对阴离子表面活性剂(Anionic surfactant,AS)的去除率为69.2%和27.6%.结果表明,采用适合的预处理单元,以超滤为核心的处理工艺在洗车废水循环回用方面具有可行性.

  1. Development of a ceramics filter technology for aluminum recycling. Discussion on an unnecessary constituent reducing process by means of solid-liquid separation; Recycle arumiyo ceramics filter gijutsu no kaihatsu. Koeki bunrini yoru fuyo seibun teigen process no kento

    Saegusa, T.; Honma, K. [Hokkaido Electric Power Co. Inc., Sapporo (Japan); Narita, T.; Suzuki, T. [Hokkaido University, Sapporo (Japan); Matsubara, H.; Aoki, S. [Japan Fine Ceramics Center, Nagoya (Japan)


    A problem in recycling aluminum scraps is the existence of Fe and Pb as impurities, in addition to added alloy elements (Cu, Si, Mg and Zn). Discussion was given on an Fe concentration reducing method, in which molten Al-Cu-Fe-based alloy to simulate scrapped materials is filtered by an alumina ceramics filter at the solid-liquid phase coexisting temperature zone. The ceramics filter was formed by mixing thermally hardening resin into fine powder material. By using a method to drill through-holes during the forming stage, fine pores were optionally controlled in the sub-millimeter to millimeter order. In the filtration, if the Fe concentration is lower than that in the eutectic composition, Cu and Fe are condensed in the permeate phase, whereas primary crystal of aluminum is accumulated on the filter as the remaining phase, enhancing the aluminum purity. Filtration, repeated three times, has reduced the Fe concentration from 0.75 to 0.63% by atoms. If the Fe concentration is higher than eutectic concentration, since Fe is condensed in the form of intermetallic compound of FeAl{sub 3} as the remaining phase on the filter, the Fe concentration is reduced in the permeation phase, and three-time filtration reduced the Fe concentration from 1.5 to 0.70% by atoms. (NEDO)

  2. Recycling energy to restore impaired ankle function during human walking.

    Steven H Collins

    Full Text Available BACKGROUND: Humans normally dissipate significant energy during walking, largely at the transitions between steps. The ankle then acts to restore energy during push-off, which may be the reason that ankle impairment nearly always leads to poorer walking economy. The replacement of lost energy is necessary for steady gait, in which mechanical energy is constant on average, external dissipation is negligible, and no net work is performed over a stride. However, dissipation and replacement by muscles might not be necessary if energy were instead captured and reused by an assistive device. METHODOLOGY/PRINCIPAL FINDINGS: We developed a microprocessor-controlled artificial foot that captures some of the energy that is normally dissipated by the leg and "recycles" it as positive ankle work. In tests on subjects walking with an artificially-impaired ankle, a conventional prosthesis reduced ankle push-off work and increased net metabolic energy expenditure by 23% compared to normal walking. Energy recycling restored ankle push-off to normal and reduced the net metabolic energy penalty to 14%. CONCLUSIONS/SIGNIFICANCE: These results suggest that reduced ankle push-off contributes to the increased metabolic energy expenditure accompanying ankle impairments, and demonstrate that energy recycling can be used to reduce such cost.

  3. Occurrence and fate of acrylamide in water-recycling systems and sludge in aggregate industries.

    Junqua, Guillaume; Spinelli, Sylvie; Gonzalez, Catherine


    Acrylamide is a hazardous substance having irritant and toxic properties as well as carcinogen, mutagen, and impaired fertility possible effects. Acrylamide might be found in the environment as a consequence of the use of polyacrylamides (PAMs) widely added as a flocculant for water treatment. Acrylamide is a monomer used to produce polyacrylamide (PAM) polymers. This reaction of polymerization can be incomplete, and acrylamide molecules can be present as traces in the commercial polymer. Thus, the use of PAMs may generate a release of acrylamide in the environment. In aggregate industries, PAM is widely involved in recycling process and water reuse (aggregate washing). Indeed, these industries consume large quantities of water. Thus, European and French regulations have favored loops of recycling of water in order to reduce water withdrawals. The main goal of this article is to study the occurrence and fate of acrylamide in water-recycling process as well as in the sludge produced by the flocculation treatment process in aggregate production plants. Moreover, to strengthen the relevance of this article, the objective is also to demonstrate if the recycling system leads to an accumulation effect in waters and sludge and if free acrylamide could be released by sludge during their storage. To reach this objective, water sampled at different steps of recycling water process has been analyzed as well as different sludge corresponding to various storage times. The obtained results reveal no accumulation effect in the water of the water-recycling system nor in the sludge.

  4. Crumb Rubber in cold recycled bituminous mixes

    Dondi, Giulio; Tataranni, Piergiorgio; Pettinari, Matteo


    Today recycling is one of the most innovative and interesting techniques for the rehabilitation of destressed road pavements. In recent years the increased interest in this process, has led to the development of various alternative methods for the recovery and the reuse of road bituminous materia...

  5. Planning logistics network for recyclables collection

    Ratković Branislava


    Full Text Available Rapid urbanization, intensified industrialization, rise of income, and a more sophisticated form of consumerism are leading to an increase in the amount and toxicity of waste all over the world. Whether reused, recycled, incinerated or put into landfill sites, the management of household and industrial waste yield financial and environmental costs. This paper presents a modeling approach that can be used for designing one part of recycling logistics network through defining optimal locations of collection points, and possible optimal scheduling of vehicles for collecting recyclables. [Projekat Ministarstva nauke Republike Srbije, br. TR36005

  6. Wastewater recycling technology for fermentation in polyunsaturated fatty acid production.

    Song, Xiaojin; Ma, Zengxin; Tan, Yanzhen; Zhang, Huidan; Cui, Qiu


    To reduce fermentation-associated wastewater discharge and the cost of wastewater treatment, which further reduces the total cost of DHA and ARA production, this study first analyzed the composition of wastewater from Aurantiochytrium (DHA) and Mortierella alpina (ARA) fermentation, after which wastewater recycling technology for these fermentation processes was developed. No negative effects of DHA and ARA production were observed when the two fermentation wastewater methods were cross-recycled. DHA and ARA yields were significantly inhibited when the wastewater from the fermentation process was directly reused. In 5-L fed-batch fermentation experiments, using this cross-recycle technology, the DHA and ARA yields were 30.4 and 5.13gL(-1), respectively, with no significant changes (P>0.05) compared to the control group, and the water consumption was reduced by half compared to the traditional process. Therefore, this technology has great potential in industrial fermentation for polyunsaturated fatty acid production. Copyright © 2017 Elsevier Ltd. All rights reserved.

  7. Report: Maximizing recycling participation to reduce waste to landfill: a study of small to medium-sized enterprises in Hobart, Tasmania, Australia.

    Parsons, Sam; Kriwoken, Lorne K


    Small to medium-sized enterprises (SMEs) in Hobart, Tasmania, Australia face many barriers to recycling participation. This study first investigated the volumes and types of waste produced by SMEs. Significant barriers were then identified and key motivators to recycle examined. Using the Australia New Zealand Standard of Industrial Classification, stratified sampling of SMEs (n = 436) was undertaken. Inadequate storage space, paucity of readily available information on recycling services and the lack of staff allocated to sort and recycle were identified as major barriers. Cardboard, paper and plastic waste were produced in large volumes with only a small percentage being recycled and these were identified as target areas for local government. Recommendations include the appointment of a dedicated recycling officer to maximize recycling participation for the reduction of waste to landfill and to undertake further research on minimizing recycling costs.

  8. Reusing steel and aluminum components at end of product life.

    Cooper, Daniel R; Allwood, Julian M


    Reusing steel and aluminum components would reduce the need for new production, possibly creating significant savings in carbon emissions. Currently, there is no clearly defined set of strategies or barriers to enable assessment of appropriate component reuse; neither is it possible to predict future levels of reuse. This work presents a global assessment of the potential for reusing steel and aluminum components. A combination of top-down and bottom-up analyses is used to allocate the final destinations of current global steel and aluminum production to product types. A substantial catalogue has been compiled for these products characterizing key features of steel and aluminum components including design specifications, requirements in use, and current reuse patterns. To estimate the fraction of end-of-life metal components that could be reused for each product, the catalogue formed the basis of a set of semistructured interviews with industrial experts. The results suggest that approximately 30% of steel and aluminum used in current products could be reused. Barriers against reuse are examined, prompting recommendations for redesign that would facilitate future reuse.

  9. Combined process of biological aerated filter for the advanced treatment of recycled water reuse in thermal power plants%曝气生物滤池组合工艺深度处理中水回用于火电厂



    介绍了内蒙古市政污水处理厂二级生物处理后的中水的深度处理工艺(机械搅拌澄清池和曝气生物滤池的组合工艺)流程和进出水水质情况,分析了机械搅拌澄清池和曝气生物滤池的工艺特点。经深度处理后,出水COD、氨氮、总磷等水质指标均显著降低,完全符合回用要求,能够满足火电厂生产需要。实践表明,该处理工艺可缓解水资源紧张的现状,有着广泛的应用前景。%The advanced treatment process flow (combined mechanical stirring clarification pool+biological aerated filter process) of the recycled water after being treated by secondary biological treatment in Inner Mongolia Munici-pal Sewage Treatment Plant and the situation of its influent and effluent water quality are introduced. The technolog-ical characteristics of the stirring clarification pool and biological aerated filter are analyzed. After the advanced treatment,the water quality indexes,such as the effluent COD,ammonia nitrogen,total phosphorus,etc.,are all de-creased obviously,meeting completely the reuse requirements and satisfying the production needs of thermal power plants. Practice results show that the treatment process can ease the water resource shortage situation ,having wide application prospect.

  10. Reducing Waste from Military Facility Programs...Shed Those Ugly Tons


    Recycling building materials – PWTB 200-1-17, Recycling Interior Finish Materials - Carpet and Ceiling Tiles – PWTB 200-1-24, Quantifying Waste Generated...UFC 1-900-01 Selection of Methods for the Reduction, Reuse and Recycling of Demolition Waste – UFGS 01 62 35 Recycled /Recovered Materials – UFGS...STRONG® • Removing buildings – PWTB 200-1-23 Guidance for the Reduction of Demolition Waste Through Reuse and Recycling – PWTB 200-1-40 Characterizing

  11. Raw material generated from pet bottle recycling and its derivatives

    João Almeida Santos


    Full Text Available The recycling process is no longer a pejorative connotation business to become the main business of any company not only because of the need to conserve virgin resources, but mainly because of the benefits to the environment. In this sense, this paper aims at assessing the possibility of exports of polyethylene terephthalate - PET known for - a type of product that can be recycled and reprocessed into products of various types and applications. This article has been structured based on exploratory research bibliographic database of scientific articles, books, newspapers and magazines where we analyze the main steps involved in the recycling of PET and its exploitation for export. Support of organizations and associations such as the Brazilian Association of PET (ABIPET contributed to the development of theoretical framework. The market operated and what can still be very large, with the possibility of exponential growth supported by: the economy in the use of virgin resources reduces the impact of chemicals in the environment, saving energy used in the production process, reducing the use of financial resources allocated to the reuse of materials.

  12. Chemical solutions for greywater recycling.

    Pidou, Marc; Avery, Lisa; Stephenson, Tom; Jeffrey, Paul; Parsons, Simon A; Liu, Shuming; Memon, Fayyaz A; Jefferson, Bruce


    Greywater recycling is now accepted as a sustainable solution to the general increase of the fresh water demand, water shortages and for environment protection. However, the majority of the suggested treatments are biological and such technologies can be affected, especially at small scale, by the variability in strength and flow of the greywater and potential shock loading. This investigation presents the study of alternative processes, coagulation and magnetic ion exchange resin, for the treatment of greywater for reuse. The potential of these processes as well as the influence of parameters such as coagulant or resin dose, pH or contact time were investigated for the treatment of two greywaters of low and high organic strengths. The results obtained revealed that magnetic ion exchange resin and coagulation were suitable treatment solutions for low strength greywater sources. However, they were unable to achieve the required level of treatment for the reuse of medium to high strength greywaters. Consequently, these processes could only be considered as an option for greywater recycling in specific conditions that is to say in case of low organic strength greywater or less stringent standards for reuse.

  13. Understanding the blockages: stakeholder perceptions of greywater reuse in Metro Vancouver.

    Hennessy, Meaghan Jean


    Greywater reuse – using water from sinks, showers and laundry to flush toilets and irrigate landscapes - is often cited as a management technique with potential to increase the efficiency of urban water use. Yet, in spite of government interest and opportunities for water conservation and environmental protection, only approximately 3% of British Columbia’s total wastewater is being recycled. Understanding the barriers to greywater reuse would aid resource managers in designing better policie...

  14. Development of Policies, Institutions and Procedures for Water Reuse

    Demouche, L.; Pfiefer, J.; Hanson, A.; Skaggs, R.


    In the arid, water scarce region of New Mexico and West Texas there is growing interest in the potential for water reuse to extend existing supplies and mitigate drought shortage impacts. There are no new sources of water in New Mexico, except reclaimed water. Communities and individuals are uncertain about and have many unanswered questions about polices, institutions involved (agencies), legal and regulatory requirements, and procedures governing water reuse. Issues to be addressed by this project include: the legal ability to reuse water, ownership of water rights, downstream or third party impacts, regulatory and procedural requirements, water quality concerns, state and local agency involvement, and cost effectiveness of water reuse compared to alternative sources. Presently, there is very little implementation or directives in New Mexico policy that addresses reuse, reclamation, or recycled water. The only regulations pertaining to reuse is New Mexico Environmental Department currently allows the use of reclaimed domestic wastewater for irrigation of golf courses and green spaces, which is listed in the Policy for the Above Ground Use of Reclaimed Domestic Wastewater (NMED, 2003). This document identifies the various reclaimed quality classifications that are required for specific applications and the permits required for application. This document does not identify or address policy applications on the distribution, ownership, or trading of reclaimed water. Even though reclaimed water reuse projects are currently being implemented in many cities in the U.S., mainly for commercial and municipal irrigation (golf courses and green space), its potential has not yet been exploited. A policy analysis matrix (PAM) is being designed to identify and examine the policy framework and consequences of non-policy implementation for decision makers and interest groups and assist them in understanding the consequences of policy actions and project outcomes if no laws or

  15. Analytical Evaluation of Fractional Frequency Reuse for OFDMA Cellular Networks

    Novlan, Thomas David; Ghosh, Arunabha; Andrews, Jeffrey G


    Fractional frequency reuse (FFR) is an interference management technique well-suited to OFDMA-based cellular networks wherein the cells are partitioned into spatial regions with different frequency reuse factors. To date, FFR techniques have been typically been evaluated through system-level simulations using a hexagonal grid for the base station locations. This paper instead focuses on analytically evaluating the two main types of FFR deployments - Strict FFR and Soft Frequency Reuse (SFR) - using a Poisson point process to model the base station locations. The results are compared with the standard grid model and an actual urban deployment. Under reasonable special cases for modern cellular networks, our results reduce to simple closed-form expressions, which provide insight into system design guidelines and the relative merits of Strict FFR, SFR, universal reuse, and fixed frequency reuse. We observe that FFR provides an increase in the sum-rate as well as the well-known benefit of improved coverage for ce...

  16. Use of recycled plastic in concrete: a review.

    Siddique, Rafat; Khatib, Jamal; Kaur, Inderpreet


    Numerous waste materials are generated from manufacturing processes, service industries and municipal solid wastes. The increasing awareness about the environment has tremendously contributed to the concerns related with disposal of the generated wastes. Solid waste management is one of the major environmental concerns in the world. With the scarcity of space for landfilling and due to its ever increasing cost, waste utilization has become an attractive alternative to disposal. Research is being carried out on the utilization of waste products in concrete. Such waste products include discarded tires, plastic, glass, steel, burnt foundry sand, and coal combustion by-products (CCBs). Each of these waste products has provided a specific effect on the properties of fresh and hardened concrete. The use of waste products in concrete not only makes it economical, but also helps in reducing disposal problems. Reuse of bulky wastes is considered the best environmental alternative for solving the problem of disposal. One such waste is plastic, which could be used in various applications. However, efforts have also been made to explore its use in concrete/asphalt concrete. The development of new construction materials using recycled plastics is important to both the construction and the plastic recycling industries. This paper presents a detailed review about waste and recycled plastics, waste management options, and research published on the effect of recycled plastic on the fresh and hardened properties of concrete. The effect of recycled and waste plastic on bulk density, air content, workability, compressive strength, splitting tensile strength, modulus of elasticity, impact resistance, permeability, and abrasion resistance is discussed in this paper.

  17. Setting up microbiological water reuse guidelines for the Mediterranean.

    Bahri, A; Brissaud, F


    Water reuse is a widespread practice in most Mediterranean countries. Some countries have no wastewater treatment facilities and direct reuse of raw wastewater is occurring while others have a well-established national reuse policy. Water reuse microbiological standards, when existing, significantly differ from one country to another. Some countries have adopted regulations close to the California's Water Recycling Criteria whereas other countries have chosen criteria based on the World Health Organisation (WHO) guidelines. California standards are technologically based requirements aimed at eliminating the presence of pathogens. The WHO guidelines relied on epidemiological evidences though few were available. Their revision on the basis of new epidemiological investigations and quantitative microbiological risk assessment (QMRA) provided by Blumenthal et al., together with added QMRA data, helped proposing Mediterranean guidelines. Acceptable annual risks related to bathing and potable water drinking were taken as benchmarks. This proposal is designed to protect individuals against realistic maximum exposures and to provide minimum and affordable requirements which should constitute the basis of water reuse regulations in every country of the region. Inadequacies of the actual knowledge do not allow a definitive position regarding the guideline limits; other scientific and technical basis are still required.

  18. The Influence of Different Recycling Scenarios on the Mechanical Design of an LED Weatherproof Light Fitting.

    Camañes, Víctor; Elduque, Daniel; Javierre, Carlos; Fernández, Ángel


    This paper analyzes the high relevance of material selection for the sustainable development of an LED weatherproof light fitting. The research reveals how this choice modifies current and future end of life scenarios and can reduce the overall environmental impact. This life cycle assessment has been carried out with Ecotool, a software program especially developed for designers to assess the environmental performance of their designs at the same time that they are working on them. Results show that special attention can be put on the recycling and reusing of the product from the initial stages of development.

  19. The Influence of Different Recycling Scenarios on the Mechanical Design of an LED Weatherproof Light Fitting

    Víctor Camañes


    Full Text Available This paper analyzes the high relevance of material selection for the sustainable development of an LED weatherproof light fitting. The research reveals how this choice modifies current and future end of life scenarios and can reduce the overall environmental impact. This life cycle assessment has been carried out with Ecotool, a software program especially developed for designers to assess the environmental performance of their designs at the same time that they are working on them. Results show that special attention can be put on the recycling and reusing of the product from the initial stages of development.

  20. Pyrolysis characteristics and pyrolysis products separation for recycling organic materials from waste liquid crystal display panels

    Wang, Ruixue; Xu, Zhenming, E-mail:


    Highlights: • Pyrolysis characteristics are conducted for a better understanding of LCDs pyrolysis. • Optimum design is developed which is significant to guide the further industrial process. • Acetic acid and TPP are recycled and separated. - Abstract: Waste liquid crystal display (LCD) panels mainly contain inorganic materials (glass substrate with indium-tin oxide film), and organic materials (polarizing film and liquid crystal). The organic materials should be removed beforehand since the organic matters would hinder the indium recycling process. In the present study, pyrolysis process is used to remove the organic materials and recycle acetic as well as and triphenyl phosphate (TPP) from waste LCD panels in an environmental friendly way. Several highlights of this study are summarized as follows: (i) Pyrolysis characteristics and pyrolysis kinetics analysis are conducted which is significant to get a better understanding of the pyrolysis process. (ii) Optimum design is developed by applying Box–Behnken Design (BBD) under response surface methodology (RSM) for engineering application which is significant to guide the further industrial recycling process. The oil yield could reach 70.53 wt% and the residue rate could reach 14.05 wt% when the pyrolysis temperature is 570 °C, nitrogen flow rate is 6 L min{sup −1} and the particle size is 0.5 mm. (iii) Furthermore, acetic acid and TPP are recycled, and then separated by rotary evaporation, which could reduce the consumption of fossil energy for producing acetic acid, and be reused in electronics manufacturing industry.

  1. Present status of recycling waste mobile phones in China: a review.

    Li, Jingying; Ge, Zhongying; Liang, Changjin; An, Ni


    A large number of waste mobile phones have already been generated and are being generated. Various countries around the world have all been positively exploring the way of recycling and reuse when facing such a large amount of waste mobile phones. In some countries, processing waste mobile phones has been forming a complete industrial chain, which can not only recycle waste mobile phones to reduce their negative influence on the environment but also turn waste into treasure to acquire economic benefits dramatically. However, the situation of recycling waste mobile phones in China is not going well. Waste mobile phones are not formally covered by existing regulations and policies for the waste electric and electronic equipment in China. In order to explore an appropriate system to recover waste mobile phones, the mobile phone production and the amount of waste mobile phones are introduced in this paper, and status of waste mobile phones recycling is described; then, the disposal technology of electronic waste that would be most likely to be used for processing of electronic waste in industrial applications in the near future is reviewed. Finally, rationalization proposals are put forward based on the current recovery status of waste mobile phones for the purpose of promoting the development of recycling waste mobile phones in developing countries with a special emphasis on China.

  2. Making sense of plastics recycling

    Van Bruggen, E.; Koster, R.P.; Rageart, K.; Cardon, L.; Moerman, M.; Blessing, E.


    Major benefits of plastics recycling are reduced depletion of non-renewable resources and reduction of world-wide waste. Traditional thermo-mechanical recycling causes reduction of mechanical properties for most thermoplastics. Down-cycled materials may nevertheless be suited for certain useful appl

  3. Linking Informal and Formal Electronics Recycling via an Interface Organization

    Yoshiaki Totoki


    Full Text Available Informal recycling of electronics in the developing world has emerged as a new global environmental concern. The primary approach to address this problem has been command-and-control policies that ban informal recycling and international trade in electronic scrap. These bans are difficult to enforce and also have negative effects by reducing reuse of electronics, and employment for people in poverty. An alternate approach is to link informal and formal sectors so as to maintain economic activity while mitigating environmental damages. This article explores the idea of an interface organization that purchases components and waste from informal dismantlers and passes them on to formal processors. Environmental, economic and social implications of interface organizations are discussed. The main environmental questions to resolve are what e-scrap components should be targeted by the interface organization, i.e., circuit boards, wires, and/or plastic parts. Economically, when formal recycling is more profitable (e.g., for circuit boards, the interface organization is revenue positive. However, price subsidies are needed for copper wires and residual waste to incentivize informal dismantlers to turn in for formal processing. Socially, the potential for corruption and gaming of the system is critical and needs to be addressed.

  4. Stormwater Collection, Treatment, Recycling and Reuse in a Shipyard


    following statement copied directly from the EPA Urban Wet Weather Flows Policy Dialogue Internet Site illustrates why the activities of the...organizations. The Committee’s discussions are intended to build on the successful CSO Policy Dialogue , which resulted in the development of the CSO

  5. Remote fabrication and irradiation test of recycled nuclear fuel prepared by the oxidation and reduction of spent oxide fuel

    Jin Ryu, Ho; Chan Song, Kee; Il Park, Geun; Won Lee, Jung; Seung Yang, Myung


    A direct dry recycling process was developed in order to reuse spent pressurized light water reactor (LWR) nuclear fuel in CANDU reactors without the separation of sensitive nuclear materials such as plutonium. The benefits of the dry recycling process are the saving of uranium resources and the reduction of spent fuel accumulation as well as a higher proliferation resistance. In the process of direct dry recycling, fuel pellets separated from spent LWR fuel rods are oxidized from UO2 to U3O8 at 500 °C in an air atmosphere and reduced into UO2 at 700 °C in a hydrogen atmosphere, which is called OREOX (oxidation and reduction of oxide fuel). The pellets are pulverized during the oxidation and reduction processes due to the phase transformation between cubic UO2 and orthorhombic U3O8. Using the oxide powder prepared from the OREOX process, the compaction and sintering processes are performed in a remote manner in a shielded hot cell due to the high radioactivity of the spent fuel. Most of the fission gas and volatile fission products are removed during the OREOX and sintering processes. The mini-elements fabricated by the direct dry recycling process are irradiated in the HANARO research reactor for the performance evaluation of the recycled fuel pellets. Post-irradiation examination of the irradiated fuel showed that microstructural evolution and fission gas release behavior of the dry-recycled fuel were similar to high burnup UO2 fuel.

  6. Reduction behavior of zinc ferrite in EAF-dust recycling with CO gas as a reducing agent.

    Wu, Chia-Cheng; Chang, Fang-Chih; Chen, W-S; Tsai, Min-Shing; Wang, Ya-Nang


    EAF-dust containing metal oxides can be regarded as an important source for zinc and iron. In this study, the reduction behavior of zinc ferrite with CO gas as a reducing agent under different temperatures was investigated to develop a new process for the recovery of zinc and iron from EAF-dust. The results of the phase studies with synthetic franklinite show that zinc substituted wustite, and spinel with low zinc content formed at lower temperatures from 450 to 850 °C due to incomplete zinc-iron-separation. Zinc ferrite was completely reduced to metallic zinc and iron at 950 °C. After evaporation and condensation, metallic zinc was collected in the form of zinc powder while iron, the reduction residue, was obtained in the form of direct reduced iron (DRI). The mass balance indicates a high zinc recovery ratio of over 99%. The new treatment process by thermal reduction with CO gas as a reducing agent achieved higher recovery and metallization grade of both zinc and iron from EAF-dust at lower temperatures than other commercial processes. The metallic products can be used directly as semi-products or as raw materials for refinery.

  7. The implications of household greywater treatment and reuse for municipal wastewater flows and micropollutant loads

    Revitt, D. Mike; Eriksson, Eva; Donner, Erica


    An increasing worldwide interest in water recycling technologies such as greywater treatment and reuse suggests that additional research to elucidate the fate of xenobiotics during such practices would be beneficial. In this paper, scenario analyses supported by empirical data are used for highlighting the potential fate of a selection of xenobiotic micropollutants in decentralised greywater treatment systems, and for investigation of the possible implications of greywater recycling for the w...

  8. Reuse of activated alumina

    Hobensack, J.E. [Martin Marietta Energy Systems, Inc., Piketon, OH (United States)


    Activated alumina is used as a trapping media to remove trace quantities of UF{sub 6} from process vent streams. The current uranium recovery method employs concentrated nitric acid which destroys the alumina pellets and forms a sludge which is a storage and disposal problem. A recently developed technique using a distilled water rinse followed by three dilute acid rinses removes on average 97% of the uranium, and leaves the pellets intact with crush strength and surface area values comparable with new material. Trapping tests confirm the effectiveness of the recycled alumina as UF{sub 6} trapping media.

  9. Auditing an intensive care unit recycling program.

    Kubicki, Mark A; McGain, Forbes; O'Shea, Catherine J; Bates, Samantha


    The provision of health care has significant direct environmental effects such as energy and water use and waste production, and indirect effects, including manufacturing and transport of drugs and equipment. Recycling of hospital waste is one strategy to reduce waste disposed of as landfill, preserve resources, reduce greenhouse gas emissions, and potentially remain fiscally responsible. We began an intensive care unit recycling program, because a significant proportion of ICU waste was known to be recyclable. To determine the weight and proportion of ICU waste recycled, the proportion of incorrect waste disposal (including infectious waste contamination), the opportunity for further recycling and the financial effects of the recycling program. We weighed all waste and recyclables from an 11-bed ICU in an Australian metropolitan hospital for 7 non-consecutive days. As part of routine care, ICU waste was separated into general, infectious and recycling streams. Recycling streams were paper and cardboard, three plastics streams (polypropylene, mixed plastics and polyvinylchloride [PVC]) and commingled waste (steel, aluminium and some plastics). ICU waste from the waste and recycling bins was sorted into those five recycling streams, general waste and infectious waste. After sorting, the waste was weighed and examined. Recycling was classified as achieved (actual), potential and total. Potential recycling was defined as being acceptable to hospital protocol and local recycling programs. Direct and indirect financial costs, excluding labour, were examined. During the 7-day period, the total ICU waste was 505 kg: general waste, 222 kg (44%); infectious waste, 138 kg (27%); potentially recyclable waste, 145 kg (28%). Of the potentially recyclable waste, 70 kg (49%) was actually recycled (14% of the total ICU waste). In the infectious waste bins, 82% was truly infectious. There was no infectious contamination of the recycling streams. The PVC waste was 37% contaminated

  10. Evaluation of radioactive scrap metal recycling

    Nieves, L.A.; Chen, S.Y.; Kohout, E.J.; Nabelssi, B.; Tilbrook, R.W.; Wilson, S.E.


    This report evaluates the human health risks and environmental and socio-political impacts of options for recycling radioactive scrap metal (RSM) or disposing of and replacing it. Argonne National Laboratory (ANL) is assisting the US Department of Energy (DOE), Office of Environmental Restoration and Waste Management, Oak Ridge Programs Division, in assessing the implications of RSM management alternatives. This study is intended to support the DOE contribution to a study of metal recycling being conducted by the Task Group on Recycling and Reuse of the Organization for Economic Cooperation and Development. The focus is on evaluating the justification for the practice of recycling RSM, and the case of iron and steel scrap is used as an example in assessing the impacts. To conduct the evaluation, a considerable set of data was compiled and developed. Much of this information is included in this document to provide a source book of information.

  11. Effect of Powder Reuse Times on Additive Manufacturing of Ti-6Al-4V by Selective Electron Beam Melting

    Tang, H. P.; Qian, M.; Liu, N.; Zhang, X. Z.; Yang, G. Y.; Wang, J.


    An advantage of the powder-bed-based metal additive manufacturing (AM) processes is that the powder can be reused. The powder reuse or recycling times directly affect the affordability of the additively manufactured parts, especially for the AM of titanium parts. This study examines the influence of powder reuse times on the characteristics of Ti-6Al-4V powder, including powder composition, particle size distribution (PSD), apparent density, tap density, flowability, and particle morphology. In addition, tensile samples were manufactured and evaluated with respect to powder reuse times and sample locations in the powder bed. The following findings were made from reusing the same batch of powder 21 times for AM by selective electron beam melting: (i) the oxygen (O) content increased progressively with increasing reuse times but both the Al content and the V content remained generally stable (a small decrease only); (ii) the powder became less spherical with increasing reuse times and some particles showed noticeable distortion and rough surfaces after being reused 16 times; (iii) the PSD became narrower and few satellite particles were observed after 11 times of reuse; (iv) reused powder showed improved flowability; and (v) reused powder showed no measurable undesired influence on the AM process and the samples exhibited highly consistent tensile properties, irrespective of their locations in the powder bed. The implications of these findings were discussed.

  12. 78 FR 69531 - America Recycles Day, 2013


    ... Second World Wars, Americans showed their patriotism by participating in scrap drives and salvage... our health and harm our environment if not recycled properly. Recycling not only reduces pollution... the world around us. In our homes, offices, and schools, let us strive to make recycling a part of...

  13. Reusing optical supports using a simple software

    Quatrini, Davide


    In this paper we show how it is possible to reuse optical supports (CDs, DVDs, etc.) without using chemical or physical transformation, only employing a software that can easily run on domestic computers. This software can make obsolete optical supports useful again, converting de facto WEEE (Waste electric and electronic equipment) into EEE (Electric and electronic equipment). A massive use of such a software can lead to a significant change in EEE every-day use, reducing its production to sustainable levels.


    Patrícia Raquel da Silva Sottoriva


    Full Text Available As the sustainable development that the society aims is based on economic, social and environmental factors, it can be said that the environmental crisis has as the component factors: natural resources, population and pollution. To reduce the pressure that human activities have on the environment, it is necessary to know the production process, inputs and outputs, to reduce potential problems such as waste and facilitate opportunities for system optimization. In this context it was investigated the life cycle of waste and household hazardous recyclable items to identify possibilities for reducing impact on supply chains. As a result it was found that the raw material most used by the paper industry is pine and eucalyptus plantations and some industries also use sugar cane. From the growing process until the paper is industrialized, there is a large demand of time. The cutting of eucalyptus should be done between 5 and 7 years, since the pine requires 10 to 12 years. After used, the papers can and should be recycled. When recycling 1 ton of paper 29.2 m3 of water can be saved, 3.51 MWh of electricity 76 and 22 trees when compared to traditional production processes. The cultivation of trees also contributes to carbon capture and sequestration. The eucalyptus ages 2, 4, 6, 8 years fixing concentrations of 11.12, 18.55, 80.91 and 97.86 t / ha, respectively. The paper can also be designed to compost due to biodegradability. The metal, glass and plastics are not biodegradable and inorganic nature needing to be recycled or reused. Recycling 1 ton of plastic is no economy of 5.3 MWh and 500 kg of oil. Even with the gains of environmental, social and economic impacts of recycling compared to traditional processes, in Brazil, the percentage of recycling paper and glass and PET bottles are less than 60%. The recycling of aluminum cans and steel exceeds 90%. Lamps and batteries are materials that are inadequately provide for contamination to the




    Full Text Available Laboratory studies on the production of metallic iron from iron oxide using blends of palm nut shells (Elaes Guineanses and waste plastics as reducing agent have been performed through experiments conducted in a horizontal tube furnace. Composite pellets were formed from mixtures of iron oxide and carbonaceous materials consisting of chars of palm nut shells (PNS, high density polyethylene (HDPE and two blends of PNS with HDPE. Two sources of iron oxide were utilised in this investigation; reagent grade iron oxide (96.89 % Fe2O3 and EAF slag (47.1 % FeO. The iron oxide-carbonaceous material composites were heated rapidly at 1500°C in a continuous stream of argon and the off gas was analysed continuously using an infrared (IR gas analyser and a gas chromatographic (GC analyser. Elemental analyses of samples of the reduced metal were performed chemically for its carbon and oxygen contents using a LECO carbon/sulphur and oxygen/nitrogen analysers, respectively. The extent of reduction (after ten and fifteen minutes for reagent grade iron oxide and EAF slag, respectively and the level of carburisation were determined for each carbonaceous reductant. The results indicate that carburised metallic iron can be produced effectively from iron oxide using PNS, HDPE and blends of these carbonaceous materials as reductants. The extent of reduction improved significantly when PNS was blended with HDPE.

  16. Materials flow modeling of nutrient recycling in biodiesel production from microalgae.

    Rösch, Christine; Skarka, Johannes; Wegerer, Nadja


    Biodiesel production based on microalgae as feedstock is associated with a high demand of nutrients, respectively nitrogen and phosphorus. The production of 1l biodiesel requires between 0.23 and 1.55 kg nitrogen and 29-145 g of phosphorus depending of the cultivation conditions for microalgae. The supply of nutrients can be expected to severely limit the extent to which the production of biofuels from microalgae can be sustainably expanded. The nutrient demand can be reduced if the nutrients in the residual algae biomass after oil extraction are reused for algae cultivation. This modeling work illustrates that for the investigated process chains and scenarios the nutrient recycling rates are in the range from 30% to 90% for nitrogen and from 48% to 93% for phosphorus. The highest recycling values can be achieved by hydrothermal gasification of the oil-free residues.

  17. Software reuse environment user's guide


    This document describes the services provided by the prototype Software Reuse Environment, which was developed by CTA for NASA Goddard Space Flight Center, Code 520. This is one of three guides delivered by CTA as part of the environment. The other two guides are: Software Generation and Installation Guide; and SEMANTX--Defining the Schema. The Software Generation and Installation Guide describes the software source modules that make up the Reuse Environment, with instructions on how to generate and install an executable system from the source code. SEMANTX--Defining the Schema describes how a reuse database is created. Actually this guide is more general than the reuse database, as it describes how to generate a SEMANTX database. SEMANTX is an off-the-shelf tool that we have used to implement the reuse database. It is a product of Semantyk Systems, Inc. The Software Reuse Environment is built upon SEMANTX as well as on the IDE Structured Analysis Integrated Environment. (IDE is Interactive Development Environments, Inc.) SEMANTX itself is built on top of the Unify Database Management System. To use the Software Reuse Environment you should have the User's Manuals for SEMANTX, for Unify, and for the IDE software. CTA has provided all of these with the environment.

  18. Resource recovery and recycling in OECD countries

    MacNeil, J.W.

    It was the importance of the economic issues relevant to resource recovery and re-use that prompted OECD to become involved in this general area, and the author proposes in this talk to describe the principal features of the three main approaches to waste management from an economic perspective. These approaches are reduction of waste generation (i.e. birth control) resource recovery and materials recycling or re-use (reincarnation). Most of OECD's work in this area to date has been on the third of these approaches with particular emphasis on the economics of recycling, so somewhat more attention will be devoted to it. Then some conclusions will be drawn concerning possible policy actions to encourage a rational approach to management of this resource.

  19. Potential reuse of small household waste electrical and electronic equipment: Methodology and case study.

    Bovea, María D; Ibáñez-Forés, Valeria; Pérez-Belis, Victoria; Quemades-Beltrán, Pilar


    This study proposes a general methodology for assessing and estimating the potential reuse of small waste electrical and electronic equipment (sWEEE), focusing on devices classified as domestic appliances. Specific tests for visual inspection, function and safety have been defined for ten different types of household appliances (vacuum cleaner, iron, microwave, toaster, sandwich maker, hand blender, juicer, boiler, heater and hair dryer). After applying the tests, reuse protocols have been defined in the form of easy-to-apply checklists for each of the ten types of appliance evaluated. This methodology could be useful for reuse enterprises, since there is a lack of specific protocols, adapted to each type of appliance, to test its potential of reuse. After applying the methodology, electrical and electronic appliances (used or waste) can be segregated into three categories: the appliance works properly and can be classified as direct reuse (items can be used by a second consumer without prior repair operations), the appliance requires a later evaluation of its potential refurbishment and repair (restoration of products to working order, although with possible loss of quality) or the appliance needs to be finally discarded from the reuse process and goes directly to a recycling process. Results after applying the methodology to a sample of 87.7kg (96 units) show that 30.2% of the appliances have no potential for reuse and should be diverted for recycling, while 67.7% require a subsequent evaluation of their potential refurbishment and repair, and only 2.1% of them could be directly reused with minor cleaning operations. This study represents a first approach to the "preparation for reuse" strategy that the European Directive related to Waste Electrical and Electronic Equipment encourages to be applied. However, more research needs to be done as an extension of this study, mainly related to the identification of the feasibility of repair or refurbishment operations

  20. Effects of No-tillage Combined with Reused Plastic Film Mulching on Maize Yield and Irrigation Water Productivity

    SU Yong-zhong


    Full Text Available A field experiment was conducted to determine the effects of reused plastic film mulching and no-tillage on maize yield and irriga-tion water productivity(IWP in the marginal oasis in the middle of Hexi Corridor region of northwestern China. The aim is to provide an alternative tillage and cultivation pattern for reducing plastic film pollution, saving cost and increasing income, and improving resource use efficiency. The field experiment was carried out in three soils with different textures and fertility levels. Three treatments for each soil were set up:(1 conventional tillage,winter irrigation, and new plastic mulching cultivation(NM;(2 no tillage, less winter irrigation and reused plastic mulching cultivation (RM;(3 no tillage, less winter irrigation and reused plastic mulching combined with straw mulching (RMS. The results showed that the average daily soil temperature in the two reused plastic mulching treatment(RM and RMS during maize sowing and elongation stage was lower 0.6~1.0℃(5 cm depth and 0.5~0.8℃(15 cm depth than that in the NM. This result suggested that no tillage and reused plastic mulching cultivation still had the effect of increasing soil temperature. Maize grain yield in the RM was reduced by 4.4%~10.6% compared with the conventional cultivation(NM, while the net income increased due to saving in plastic film and tillage ex-penses. There was no significant difference in maize grain yield between the RMS and NM treatment, but the net income in the RMS was in-creased by 12.5%~17.1% than that in the NM. Compared with the NM, the two reused plastic film mulching treatments (RM and RMS decreased the volume of winter irrigation, but maize IWP increased. Soil texture and fertility level affected significantly maize nitrogen uptake and IWP. In the arid oases with the shortage of water resources, cultivation practices of conservation tillage with recycle of plastic film is an ideal option for saving cost and increasing income

  1. 75 FR 32209 - North San Pablo Bay Restoration and Reuse Project


    ... limits on the timing and quality of the treated wastewater they can discharge to San Pablo Bay, as well as the rivers and streams that flow to it. By treating wastewater to the stricter regulatory levels... Recycling Program. The purpose of the Project is to create a regional wastewater reuse project to...

  2. Management experiences and trends for water reuse implementation in Northern California.

    Bischel, Heather N; Simon, Gregory L; Frisby, Tammy M; Luthy, Richard G


    In 2010, California fell nearly 300,000 acre-ft per year (AFY) short of its goal to recycle 1,000,000 AFY of municipal wastewater. Growth of recycled water in the 48 Northern California counties represented only 20% of the statewide increase in reuse between 2001 and 2009. To evaluate these trends and experiences, major drivers and challenges that influenced the implementation of recycled water programs in Northern California are presented based on a survey of 71 program managers conducted in 2010. Regulatory requirements limiting discharge, cited by 65% of respondents as a driver for program implementation, historically played an important role in motivating many water reuse programs in the region. More recently, pressures from limited water supplies and needs for system reliability are prevalent drivers. Almost half of respondents (49%) cited ecological protection or enhancement goals as drivers for implementation. However, water reuse for direct benefit of natural systems and wildlife habitat represents just 6-7% of total recycling in Northern California and few financial incentives exist for such projects. Economic challenges are the greatest barrier to successful project implementation. In particular, high costs of distribution systems (pipelines) are especially challenging, with $1 to 3 million/mile costs experienced. Negative perceptions of water reuse were cited by only 26% of respondents as major hindrances to implementation of surveyed programs.

  3. Technologies for greywater recycling in buildings

    Laine, Anu Talvikki


    The potential of four pilot-scale wastewater treatment processes for in-building greywater recycling has been assessed. The evaluation of three membrane bioreactors (MBRs) and a biological aerated filter (BAF) was principally with reference to the non-potable water reuse quality standards. In the steady-state trials the feedwater quality was changed from synthetic greywater to blackwater (primary sewage influent) simulating the variability of domestic wastewater. The submerged MBR met bot...

  4. Protein interacting with C kinase 1 (PICK1) reduces reinsertion rates of interaction partners sorted to Rab11-dependent slow recycling pathway

    Madsen, Kenneth Lindegaard; Thorsen, Thor Seneca; Rahbek-Clemmensen, Troels;


    of PICK1 co-clusters in Rab11-positive compartments. Furthermore, PICK1 inhibited Rab11-mediated recycling of the receptor in a BAR and PDZ domain-dependent manner. In contrast, transfer of the DAT C terminus to the δ-opioid receptor, which sorts to degradation, did not result in PICK1 co-clusters or any...... primarily sorts to degradation upon internalization, did not form perinuclear clusters with PICK1, and PICK1 did not affect DAT internalization/recycling. However, transfer of the PICK1-binding DAT C terminus to the β(2)-adrenergic receptor, which sorts to recycling upon internalization, led to formation...... change in internalization/recycling. Further support for a role of PICK1 determined by its PDZ cargo was obtained for the PICK1 interaction partner prolactin-releasing peptide receptor (GPR10). GPR10 co-localized with Rab11 and clustered with PICK1 upon constitutive internalization but co...

  5. Use of recycled materials in cost reducing of rural electrification; Aplicacion de la rehabilitacion de materiales para el sostenimiento de los costos de electrificacion rural

    Munoz P, L. [Comision Federal de Electricidad, Mexico City (Mexico)


    This paper shows an experience developed by the Mexican Federal Energy Centre at the use of recycled, long-term stored and out-of-used materials, aiming the reduction of the costs in rural electrification constructions.

  6. Waste collection systems for recyclables

    Larsen, Anna Warberg; Merrild, Hanna Kristina; Møller, Jacob


    Recycling of paper and glass from household waste is an integrated part of waste management in Denmark, however, increased recycling is a legislative target. The questions are: how much more can the recycling rate be increased through improvements of collection schemes when organisational...... and technical limitations are respected, and what will the environmental and economic consequences be? This was investigated in a case study of a municipal waste management system. Five scenarios with alternative collection systems for recyclables (paper, glass, metal and plastic packaging) were assessed...... and treatment of waste were reduced with increasing recycling, mainly because the high cost for incineration was avoided. However, solutions for mitigation of air pollution caused by increased collection and transport should be sought. (C) 2009 Elsevier Ltd. All rights reserved....

  7. Economic Analysis on Wastewater Reuse

    Yushan WAN; Na LI


    Abstract The shortage of water resources social development. Wastewater reuse is an has become a major limiting factor for effective solution to solve water short- ages, which not only has economic benefits, but also has significant social and en- vironmental benefits. The economic evaluation is an important component in the study of wastewater reuse feasibility and the basis for the program optimization and economic feasibility determination.


    Jaroslav Topič


    Full Text Available The disposal and further recycling of concrete is being investigated worldwide, because the issue of complete recycling has not yet been fully resolved. A fundamental difficulty faced by researchers is the reuse of the recycled concrete fines which are very small (< 1 mm. Currently, full recycling of such waste fine fractions is highly energy intensive and resulting in production of CO2. Because of this, the only recycling methods that can be considered as sustainable and environmentally friendly are those which involve recycled concrete powder (RCP in its raw form. This article investigates the performance of RCP with the grain size < 0.25 mm as a potential binder replacement, and also as a microfiller in cement-based composites. Here, the RCP properties are assessed, including how mechanical properties and the microstructure are influenced by increasing the amount of the RCP in a cement paste (≤ 25 wt%.

  9. Entropy, recycling and macroeconomics of water resources

    Karakatsanis, Georgios; Mamassis, Nikos; Koutsoyiannis, Demetris


    We propose a macroeconomic model for water quantity and quality supply multipliers derived by water recycling (Karakatsanis et al. 2013). Macroeconomic models that incorporate natural resource conservation have become increasingly important (European Commission et al. 2012). In addition, as an estimated 80% of globally used freshwater is not reused (United Nations 2012), under increasing population trends, water recycling becomes a solution of high priority. Recycling of water resources creates two major conservation effects: (1) conservation of water in reservoirs and aquifers and (2) conservation of ecosystem carrying capacity due to wastewater flux reduction. Statistical distribution properties of the recycling efficiencies -on both water quantity and quality- for each sector are of vital economic importance. Uncertainty and complexity of water reuse in sectors are statistically quantified by entropy. High entropy of recycling efficiency values signifies greater efficiency dispersion; which -in turn- may indicate the need for additional infrastructure for the statistical distribution's both shifting and concentration towards higher efficiencies that lead to higher supply multipliers. Keywords: Entropy, water recycling, water supply multipliers, conservation, recycling efficiencies, macroeconomics References 1. European Commission (EC), Food and Agriculture Organization (FAO), International Monetary Fund (IMF), Organization of Economic Cooperation and Development (OECD), United Nations (UN) and World Bank (2012), System of Environmental and Economic Accounting (SEEA) Central Framework (White cover publication), United Nations Statistics Division 2. Karakatsanis, G., N. Mamassis, D. Koutsoyiannis and A. Efstratiades (2013), Entropy and reliability of water use via a statistical approach of scarcity, 5th EGU Leonardo Conference - Hydrofractals 2013 - STAHY '13, Kos Island, Greece, European Geosciences Union, International Association of Hydrological Sciences

  10. Ascorbate recycling in human neutrophils: Induction by bacteria

    Wang, Yaohui; Russo, Thomas A.; Kwon, Oran; Chanock, Stephen; Rumsey, Steven C.; Levine, Mark


    Ascorbate (vitamin C) recycling occurs when extracellular ascorbate is oxidized, transported as dehydroascorbic acid, and reduced intracellularly to ascorbate. We investigated microorganism induction of ascorbate recycling in human neutrophils and in microorganisms themselves. Ascorbate recycling was determined by measuring intracellular ascorbate accumulation. Ascorbate recycling in neutrophils was induced by both Gram-positive and Gram-negative pathogenic bacteria, and the fungal pathogen C...

  11. Multi-Material Recycling Manual. The Keep America Beautiful System. Revised Edition.


    Solid waste management ranks third after schools and roads in most municipal budgets in the United States. Maximizing the separation of recyclable materials that can be reused may offer the highest priority and best use of our waste and should receive high priority in a solid waste management plan. This manual deals with the recycling of material…

  12. Pyrolysis characteristics and pyrolysis products separation for recycling organic materials from waste liquid crystal display panels.

    Wang, Ruixue; Xu, Zhenming


    Waste liquid crystal display (LCD) panels mainly contain inorganic materials (glass substrate with indium-tin oxide film), and organic materials (polarizing film and liquid crystal). The organic materials should be removed beforehand since the organic matters would hinder the indium recycling process. In the present study, pyrolysis process is used to remove the organic materials and recycle acetic as well as and triphenyl phosphate (TPP) from waste LCD panels in an environmental friendly way. Several highlights of this study are summarized as follows: (i) Pyrolysis characteristics and pyrolysis kinetics analysis are conducted which is significant to get a better understanding of the pyrolysis process. (ii) Optimum design is developed by applying Box-Behnken Design (BBD) under response surface methodology (RSM) for engineering application which is significant to guide the further industrial recycling process. The oil yield could reach 70.53 wt% and the residue rate could reach 14.05 wt% when the pyrolysis temperature is 570 °C, nitrogen flow rate is 6 L min(-1) and the particle size is 0.5 mm. (iii) Furthermore, acetic acid and TPP are recycled, and then separated by rotary evaporation, which could reduce the consumption of fossil energy for producing acetic acid, and be reused in electronics manufacturing industry. Copyright © 2015 Elsevier B.V. All rights reserved.

  13. Assessment and reuse of secondary batteries cells

    Schneider, E. L.; Kindlein, W.; Souza, S.; Malfatti, C. F.

    The popularity of portable electronic devices and the ever-growing production of the same have led to an increase in the use of rechargeable batteries. These are often discarded even before the end of their useful life. This, in turn, leads to great waste in material and natural resources and to contamination of the environment. The objective of this study was thus to develop a methodology to assess and reuse NiMH battery cells that have been disposed of before the end of their life cycle, when they can still be used. For such, the capacity of these cells, which were still in good operating conditions when the batteries were discarded, was assessed, and the percentage was estimated. The results reveal that at the end of the assessment process, a considerable number of these cells still had reuse potential, with approximately 37% of all discarded and tested cells being approved for reuse. The methodology introduced in this study showed it is possible to establish an environmentally correct alternative to reduce the amount of this sort of electronic trash.

  14. Recycling Perovskite Solar Cells To Avoid Lead Waste.

    Binek, Andreas; Petrus, Michiel L; Huber, Niklas; Bristow, Helen; Hu, Yinghong; Bein, Thomas; Docampo, Pablo


    Methylammonium lead iodide (MAPbI3) perovskite based solar cells have recently emerged as a serious competitor for large scale and low-cost photovoltaic technologies. However, since these solar cells contain toxic lead, a sustainable procedure for handling the cells after their operational lifetime is required to prevent exposure of the environment to lead and to comply with international electronic waste disposal regulations. Herein, we report a procedure to remove every layer of the solar cells separately, which gives the possibility to selectively isolate the different materials. Besides isolating the toxic lead iodide in high yield, we show that the PbI2 can be reused for the preparation of new solar cells with comparable performance and in this way avoid lead waste. Furthermore, we show that the most expensive part of the solar cell, the conductive glass (FTO), can be reused several times without any reduction in the performance of the devices. With our simple recycling procedure, we address both the risk of contamination and the waste disposal of perovskite based solar cells while further reducing the cost of the system. This brings perovskite solar cells one step closer to their introduction into commercial systems.

  15. Greener routes for recycling of polyethylene terephthalate

    A.M. Al-Sabagh


    Full Text Available The article reviews the different routes for recycling of polyethylene terephthalate. Chemical recycling processes are divided into six groups: methanolysis, glycolysis, hydrolysis, ammonolysis, aminolysis, and other methods. In a large collection of researches for the chemical recycling of PET, the primary objective is to increase the monomer yield while reducing the reaction time and/or carrying out the reaction under mild conditions. This article also presents the impact of the new recyclable catalysts such as ionic liquids on the future developments in the chemical recycling of PET.

  16. Coal liquefaction with preasphaltene recycle

    Weimer, Robert F.; Miller, Robert N.


    A coal liquefaction system is disclosed with a novel preasphaltene recycle from a supercritical extraction unit to the slurry mix tank wherein the recycle stream contains at least 90% preasphaltenes (benzene insoluble, pyridine soluble organics) with other residual materials such as unconverted coal and ash. This subject process results in the production of asphaltene materials which can be subjected to hydrotreating to acquire a substitute for No. 6 fuel oil. The preasphaltene-predominant recycle reduces the hydrogen consumption for a process where asphaltene material is being sought.

  17. Indirect Potable Reuse: A Sustainable Water Supply Alternative

    Clemencia Rodriguez


    Full Text Available The growing scarcity of potable water supplies is among the most important issues facing many cities, in particular those using single sources of water that are climate dependent. Consequently, urban centers are looking to alternative sources of water supply that can supplement variable rainfall and meet the demands of population growth. A diversified portfolio of water sources is required to ensure public health, as well as social, economical and environmental sustainability. One of the options considered is the augmentation of drinking water supplies with advanced treated recycled water. This paper aims to provide a state of the art review of water recycling for drinking purposes with emphasis on membrane treatment processes. An overview of significant indirect potable reuse projects is presented followed by a description of the epidemiological and toxicological studies evaluating any potential human health impacts. Finally, a summary of key operational measures to protect human health and the areas that require further research are discussed.

  18. Indirect potable reuse: a sustainable water supply alternative.

    Rodriguez, Clemencia; Van Buynder, Paul; Lugg, Richard; Blair, Palenque; Devine, Brian; Cook, Angus; Weinstein, Philip


    The growing scarcity of potable water supplies is among the most important issues facing many cities, in particular those using single sources of water that are climate dependent. Consequently, urban centers are looking to alternative sources of water supply that can supplement variable rainfall and meet the demands of population growth. A diversified portfolio of water sources is required to ensure public health, as well as social, economical and environmental sustainability. One of the options considered is the augmentation of drinking water supplies with advanced treated recycled water. This paper aims to provide a state of the art review of water recycling for drinking purposes with emphasis on membrane treatment processes. An overview of significant indirect potable reuse projects is presented followed by a description of the epidemiological and toxicological studies evaluating any potential human health impacts. Finally, a summary of key operational measures to protect human health and the areas that require further research are discussed.

  19. Indirect Potable Reuse: A Sustainable Water Supply Alternative

    Rodriguez, Clemencia; Van Buynder, Paul; Lugg, Richard; Blair, Palenque; Devine, Brian; Cook, Angus; Weinstein, Philip


    The growing scarcity of potable water supplies is among the most important issues facing many cities, in particular those using single sources of water that are climate dependent. Consequently, urban centers are looking to alternative sources of water supply that can supplement variable rainfall and meet the demands of population growth. A diversified portfolio of water sources is required to ensure public health, as well as social, economical and environmental sustainability. One of the options considered is the augmentation of drinking water supplies with advanced treated recycled water. This paper aims to provide a state of the art review of water recycling for drinking purposes with emphasis on membrane treatment processes. An overview of significant indirect potable reuse projects is presented followed by a description of the epidemiological and toxicological studies evaluating any potential human health impacts. Finally, a summary of key operational measures to protect human health and the areas that require further research are discussed. PMID:19440440

  20. Beneficial reuse of empty DUF{sub 6} cylinders

    Nieves, L.A.; Arnish, J.; Nabelssi, B. [Argonne National Lab., IL (United States)


    This paper discusses options for the disposal of depleted UF{sub 6} storage cylinders as they are freed over the next 20 years. Presently there are 46,000 mild steel cylinders in use, and projections show 600,000 tons of steel being freed over 20 years. The paper discusses the results of studies which have looked at various aspects of this issue: health risks; environmental impacts; costs and hassles; impact of DOE metal recycle policy. The general conclusions were that chemical and trauma risks dominate the risk evaluations, that risk levels are broadly speaking level for the studied disposition options, that environmental risks are highest for burial, and lowest for free release, while costs are higher for burial and recycling, than for reuse or free release.

  1. Enhanced recycling network for spent e-bicycle batteries: A case study in Xuzhou, China.

    Chen, Fu; Yang, Baodan; Zhang, Wangyuan; Ma, Jing; Lv, Jie; Yang, Yongjun


    Electric bicycles (e-bicycles) are a primary means of commuting in China because of their light weight, speed, and low maintenance costs. Owing to short service life and environmental pollution hazards, recycling and reuse of e-bicycle batteries has always been a focus of industry and academia. As a typical case of both production and use of large electric bicycles, 113 major sellers, 378 corporate and individual buyers, 147 large e-bicycle repair centers, and 1317 e-bicycle owners in Xuzhou City were investigated in order to understand the sales, use, recycling, and disposal of spent e-bicycle batteries. The findings show that the existing distempered recycling system is the main limitation of spent battery recovery, and the actual recovery rate of spent batteries is lower than the estimated output (QW) for the years 2011-2014. Electric bicycle sellers play a fundamental role in the collection of spent batteries in Xuzhou, accounting for 42.3±8.3% of all batteries recovered. The widespread use of lithium batteries in recent years has resulted in a reduction in spent battery recycling because of lower battery prices. Furthermore, consumer preferences are another important factor affecting the actual recovery rate according to survey results evaluated using canonical correspondence analysis. In this paper, we suggest that a reverse logistics network system for spent battery recycling should be established in the future; in addition, enhancing producer responsibility, increasing publicity, raising of public awareness, developing green public transport, and reducing dependence on e-bicycles also should be pursued. This study seeks to provide guidance for planning construction and management policies for an effective spent battery recycling system in China and other developing countries. Copyright © 2016 Elsevier Ltd. All rights reserved.

  2. Repairable Woven Carbon Fiber Composites with Full Recyclability Enabled by Malleable Polyimine Networks.

    Taynton, Philip; Ni, Huagang; Zhu, Chengpu; Yu, Kai; Loob, Samuel; Jin, Yinghua; Qi, H Jerry; Zhang, Wei


    Carbon-fiber reinforced composites are prepared using catalyst-free malleable polyimine networks as binders. An energy neutral closed-loop recycling process has been developed, enabling recovery of 100% of the imine components and carbon fibers in their original form. Polyimine films made using >21% recycled content exhibit no loss of mechanical performance, therefore indicating all of the thermoset composite material can be recycled and reused for the same purpose.

  3. Integrated urban water management for residential areas: a reuse model.

    Barton, A B; Argue, J R


    Global concern over growing urban water demand in the face of limited water resources has focussed attention on the need for better management of available water resources. This paper takes the "fit for purpose" concept and applies it in the development of a model aimed at changing current practices with respect to residential planning by integrating reuse systems into the design layout. This residential reuse model provides an approach to the design of residential developments seeking to maximise water reuse. Water balance modelling is used to assess the extent to which local water resources can satisfy residential demands with conditions based on the city of Adelaide, Australia. Physical conditions include a relatively flat topography and a temperate climate, with annual rainfall being around 500 mm. The level of water-self-sufficiency that may be achieved within a reuse development in this environment is estimated at around 60%. A case study is also presented in which a conventional development is re-designed on the basis of the reuse model. Costing of the two developments indicates the reuse scenario is only marginally more expensive. Such costings however do not include the benefit to upstream and downstream environments resulting from reduced demand and discharges. As governments look to developers to recover system augmentation and environmental costs the economics of such approaches will increase.

  4. The study on the overseas recycling technology of the radioactive metallic wastes

    Kim, H. R.; Jung, Y. S.; Sin, J. I. [KAERI, Taejon (Korea, Republic of)


    It was understood that regulation criteria for material release varied with countries and that international standards were not setup. But, most advanced countries are continuously studying on the recycling of metallic wastes for the purpose of the reuse of resources and disposal cost reduction. Practically, the advanced countries make a lot of cost profits compared with disposal as their metallic wastes are recycled and reused through technology like melting. In our case, the recycle criteria for radioactive waste containing radioactive nuclide with long half-life such as Cs-137(half-life: 30y) and Co-60(half-life: 5.26y) including others, which are generated from the nuclear fission or dismantling of nuclear facilities, are not yet established. Therefore, it is required that the recommendation and legalization of the regulatory criteria be carried out for the recycle and reuse of metallic wastes to be generated from the dismantling of domestic nuclear facilities in the future.

  5. Corrosion Behavior of Steel Reinforcement in Concrete with Recycled Aggregates, Fly Ash and Spent Cracking Catalyst

    Hebé Gurdián


    Full Text Available The main strategy to reduce the environmental impact of the concrete industry is to reuse the waste materials. This research has considered the combination of cement replacement by industrial by-products, and natural coarse aggregate substitution by recycled aggregate. The aim is to evaluate the behavior of concretes with a reduced impact on the environment by replacing a 50% of cement by industrial by-products (15% of spent fluid catalytic cracking catalyst and 35% of fly ash and a 100% of natural coarse aggregate by recycled aggregate. The concretes prepared according to these considerations have been tested in terms of mechanical strengths and the protection offered against steel reinforcement corrosion under carbonation attack and chloride-contaminated environments. The proposed concrete combinations reduced the mechanical performance of concretes in terms of elastic modulus, compressive strength, and flexural strength. In addition, an increase in open porosity due to the presence of recycled aggregate was observed, which is coherent with the changes observed in mechanical tests. Regarding corrosion tests, no significant differences were observed in the case of the resistance of these types of concretes under a natural chloride attack. In the case of carbonation attack, although all concretes did not stand the highly aggressive conditions, those concretes with cement replacement behaved worse than Portland cement concretes.

  6. Theoretical information reuse and integration

    Rubin, Stuart


    Information Reuse and Integration addresses the efficient extension and creation of knowledge through the exploitation of Kolmogorov complexity in the extraction and application of domain symmetry. Knowledge, which seems to be novel, can more often than not be recast as the image of a sequence of transformations, which yield symmetric knowledge. When the size of those transformations and/or the length of that sequence of transforms exceeds the size of the image, then that image is said to be novel or random. It may also be that the new knowledge is random in that no such sequence of transforms, which produces it exists, or is at least known. The nine chapters comprising this volume incorporate symmetry, reuse, and integration as overt operational procedures or as operations built into the formal representations of data and operators employed. Either way, the aforementioned theoretical underpinnings of information reuse and integration are supported.

  7. Wastewater reuse. What can be learned from the Israel experience; Reutilizacion de aguas residuales. Que se puede aprender de la experiencia israeli

    Juanico, M.


    In Israel, wastewater is defined as an integral part of the water resources of the country and massive water reuse has been performed for almost four decades. Today, reuse achieves 75% of the produced wastewater. The present paper analyzes the historical development of wastewater reuse in Israel, addressing main events, regulations, coexistence of projects of different sizes and characteristics, institutional organization, the contractual relationship between the urban and rural sectors, nutrients recycling, quality of the treated wastewater and the problem of salination of soils and aquifers. The paper gives an holistic and impartial description of the controversial issues that are presently discussed in the country regarding wastewater reuse. (Author) 42 refs.

  8. Dissolved organic compounds in reused process water for steam-assisted gravity drainage oil sands extraction.

    Kawaguchi, Hideo; Li, Zhengguo; Masuda, Yoshihiro; Sato, Kozo; Nakagawa, Hiroyuki


    The in situ oil sands production method called steam-assisted gravity drainage (SAGD) reuses process wastewater following treatment. However, the treatment and reuse processes concentrate contaminants in the process water. To determine the concentration and dynamics of inorganic and organic contaminants, makeup water and process water from six process steps were sampled at a facility employing the SAGD process in Alberta, Canada. In the groundwater used for the makeup water, the total dissolved organic carbon (DOC) content was 4 mg/L. This significantly increased to 508 mg/L in the produced water, followed by a gradual increase with successive steps in subsequent water treatments. The concentrations and dynamics of DOC constituents in the process water determined by gas chromatography-mass spectrometry showed that in the produced water, volatile organic compounds (VOCs) such as acetone (33.1 mg/L) and 2-butanone (13.4 mg/L) predominated, and there were significant amounts of phenolic compounds (total 9.8 mg/L) and organic acids including naphthenic acids (NAs) corresponding to the formula C(n)H(2n+Z)O(X) for combinations of n = 4 to 18, Z = 0 and -2, and X = 2 to 4 (53 mg/L) with trace amounts of polycyclic aromatic hydrocarbons (PAHs) such as naphthalene and phenanthrene. No organic contaminants, except for saturated fatty acids, were detected in the groundwater. The concentration of DOC in the recycled water was 4.4-fold higher than that in the produced water. Likewise, the total concentrations of phenols and organic acids in the recycled water were 1.7- and 4.5-fold higher than in the produced water, whereas the total concentrations of VOCs and PAHs in the recycled water were reduced by over 80%, suggesting that phenols and organic acids are selectively concentrated in the process water treatment. This comprehensive chemical analysis thus identified organic constituents that were concentrated in the process water and which interfere with subsequent


    Azilah M Akil


    Full Text Available The increase in per capita income and rapid urbanization, have contributed significantly to changes in consumption behaviour leading to increased waste generation.  Waste disposed to landfill sites is fast becoming unfeasible thus requiring a more effective management of waste material involving waste reduction, reuse and recycling. The success of recycling program, however, is largely dependent on household participation activities which are essentially behaviour driven. The recycling performance of Malaysian households is still low as it stands at 5.5% compared to Singapore and Vietnam which are 56% and 22% respectively. This study examines recycling behaviour among households and the influence of socioeconomic, demographic and behavioural characteristics on households’ participation in recycling program in Malaysia.  A sample of 300 randomly selected household were surveyed.  The findings revealed that most of the households (70% claim that they are practicing recycling particularly types of paper and old clothes. The factors of participation in recycling show equal results both for environmental concerns and economic benefits. Those who did not participate in recycling, listed household issues or behaviour, namely lack of time and materials to recycle, inconvenient, lack of space, lack of facilities and information as well as laziness, as barriers. The paper finally highlights the factors which can encourage household to be involved in recycling and give recommendations to the authorities in terms of facilities and infrastructures to facilitate the program.

  10. Direction of CRT waste glass processing: electronics recycling industry communication.

    Mueller, Julia R; Boehm, Michael W; Drummond, Charles


    Cathode Ray Tube, CRT, waste glass recycling has plagued glass manufacturers, electronics recyclers and electronics waste policy makers for decades because the total supply of waste glass exceeds demand, and the formulations of CRT glass are ill suited for most reuse options. The solutions are to separate the undesirable components (e.g. lead oxide) in the waste and create demand for new products. Achieving this is no simple feat, however, as there are many obstacles: limited knowledge of waste glass composition; limited automation in the recycling process; transportation of recycled material; and a weak and underdeveloped market. Thus one of the main goals of this paper is to advise electronic glass recyclers on how to best manage a diverse supply of glass waste and successfully market to end users. Further, this paper offers future directions for academic and industry research. To develop the recommendations offered here, a combination of approaches were used: (1) a thorough study of historic trends in CRT glass chemistry; (2) bulk glass collection and analysis of cullet from a large-scale glass recycler; (3) conversations with industry members and a review of potential applications; and (4) evaluation of the economic viability of specific uses for recycled CRT glass. If academia and industry can solve these problems (for example by creating a database of composition organized by manufacturer and glass source) then the reuse of CRT glass can be increased.

  11. Evaluation of Pollutant Leaching Potential of Coal Ashes for Recycling

    Park, D.; Woo, N. C.; Kim, H.; Yoon, H.; Chung, D.


    By 2009, coal ashes produced from coal-based power plants in Korea have been reused as cement supplement materials; however, the rest is mostly disposed in landfills inside the plant properties. Continuous production of coal ashes and limited landfill sites require more recycles of coal ashes as base materials, specifically in constructions of roads and of huge industrial complex. Previous researches showed that coal ashes could contain various metals such as arsenic(As), chromium(Cr), lead(Pb), nickel(Ni), selenium(Se), etc. In this study, we collected four types of bottom ashes and two of fly ashes from four coal-based power plants. These ash samples were tested with distilled water through the column leaching process in oxidized conditions. The column test results were compared with those of total digestion, sequential extraction processes and TCLP. Concentrations of metals in outflows from columns are generally greater in fly ashes than in bottom ashes, specifically for As, Se, B, Sr and SO4. Only one fly ash (J2-F) shows high concentrations of arsenic and selenium in leachate. Sequential extraction results indicate that these metals are in readily soluble forms, such as adsorbed, carbonated, and reducible forms. Results of TCLP analysis indicate no potential contaminants leached from the ashes. In conclusion, recycling of coal combustion ashes could be encouraged with proper tests such as sequential and leaching experiments.

  12. The study on recycle scheme of the metallic radioactive wastes

    Shin, J. I.; Jung, K. J.; Paik, S. T.; Chung, U. S.; Park, J. H.; Park, S. K.; Hwang, D. S.; Lee, D. G.; Kim, H. R


    It was understood that regulation criteria for material release varied with countries and that international standards were not setup. But, most advanced countries are continuously studying on the recycling of metallic wastes for the purpose of the reuse of resources and disposal cost reduction. Practically, the advanced countries make a lot of cost profits compared with disposal as their metallic wastes are recycled and reused through technology like melting. The reasonable international standards are also expected to be set in the near future because of the aggressive cooperation between international agencies such as IAEA and NEA toward recycling these wastes. In our case, the recycle criteria for radioactive waste containing radioactive nuclide with long half-life such as Cs-137(half-life: 30y) and Co-60(half-life: 5.26y) including others, which are generated from the nuclear fission or dismantling of nuclear facilities, are not yet established. Therefore, it is required that the recommendation and legalization of the regulatory criteria be carried out for the recycle and reuse of metallic wastes to be generated from the dismantling of domestic nuclear facilities in the future.

  13. Recycling Facilities - Land Recycling Cleanup Locations

    NSGIC GIS Inventory (aka Ramona) — Land Recycling Cleanup Location Land Recycling Cleanup Locations (LRCL) are divided into one or more sub-facilities categorized as media: Air, Contained Release or...

  14. Recycling Facilities - Land Recycling Cleanup Locations

    NSGIC Education | GIS Inventory — Land Recycling Cleanup Location Land Recycling Cleanup Locations (LRCL) are divided into one or more sub-facilities categorized as media: Air, Contained Release or...

  15. Encouraging Reuse of Design Knowledge

    Ahmed, Saeema


    The long-term aim of this research is to develop a method to index design knowledge that is intuitive to an engineering designer and therefore encourage the reuse of information. Eighteen interviews were carried out to understand how designers described the process of designing a particular...

  16. Reuse in Practice Workshop Summary


    SIERRA.STANFORD.EDU Preface The following is a transcript of the keynote address for the Reuse in Practice Workshop sponsored by IDA, SEI and SIGADA. The...used were obtained from the Ads Software Repository via a manual search process (an automated search mecanism would have been an enoamous help). We

  17. The recycling industries : a Canadian perspective

    Shaw, L. [CARI, Almonte, ON (Canada); Lakshmanan, V.I. [Ortech International, Mississauga, ON (Canada)


    The economic and environmental benefits that the recycling sector has to offer in terms of resource conservation benefits was discussed with particular focus on the synergies that exist between major mining and metallurgical industries and end users. The main objective of recycling is to conserve natural resources, reducing primary process waste as well as air and water effluent generated by these processes. Recycling provides energy conservation, creates jobs and reduces the demand for sanitary landfills. The main concerns that exist within the recycling industry is the government's actions through laws, regulations and taxes which sometimes discourage recycling. The need for the public to become more informed about the benefits of recycling was emphasized. It was also noted that manufacturers should consider the final disposition of a product in their product design and manufacture. 1 tab.

  18. Direct Reuse of Rare Earth Permanent Magnets - Wind Turbine Generator Case Study

    Högberg, Stig; Pedersen, Thomas Stigsberg; Bendixen, Flemming Buus


    A novel recycling strategy, direct reuse, for rare earth permanent magnets were investigated in this article. Direct reuse uses small, unit-cell (segmented) magnets to replace the normal solid pole configuration, which is not directly reusable due its unique shape and size. The unit-cell magnets...... output torque, torque ripple, and cogging torque are achievable with this segmentation technique. The influence of the thickness of the adhesive layer was analyzed, and a pole-shaping technique was applied to improve the torque characteristics. The simulation models were verified experimentally...

  19. Pretreatment solution recycling and high-concentration output for economical production of bioethanol.

    Han, Minhee; Moon, Se-Kwon; Choi, Gi-Wook


    The purpose of this study was to enhance the economic efficiency of producing bioethanol. Pretreatment solution recycling is expected to increase economic efficiency by reducing the cost of pretreatment and the amount of wastewater. In addition, the production of high-concentration bioethanol could increase economic efficiency by reducing the energy cost of distillation. The pretreatment conditions were 95 °C, 0.72 M NaOH, 80 rpm twin-screw speed, and flow rate of 90 mL/min at 18 g/min of raw biomass feeding for pretreatment solution recycling. The pretreatment with NaOH solution recycling was conducted five times. All of the components and the pretreatment efficiency were similar, despite reuse. In addition, we developed a continuous biomass feeding system for production of high-concentration bioethanol. Using this reactor, the bioethanol productivity was investigated using various pretreated biomass feeding rates in a simultaneous saccharification and fermentation (SSF) process. The maximum ethanol concentration, yield, and productivity were 74.5 g/L, 89.5%, and 1.4 g/L h, respectively, at a pretreated biomass loading of approximately 25% (w/v) with an enzyme dosage of 30 FPU g/cellulose. The results presented here constitute an important contribution toward the production of bioethanol from Miscanthus.

  20. Water Reuse in Industrial food Processing

    subject of responsible care for the environment, water reuse is increasingly regarded as a tool for ... In this paper some hints are given for implementing water reuse in the food processing industry, ... The problem of rational use of industrial.

  1. Critical review: regulatory incentives and impediments for onsite graywater reuse in the United States.

    Yu, Zita L T; Rahardianto, Anditya; DeShazo, J R; Stenstrom, Michael K; Cohen, Yoram


    Graywater is a potential water source for reducing water demand. Accordingly, a review was undertaken of graywater reuse regulations and guidelines within the 50 United States. Major issues considered included acceptability for graywater segregation as a separate wastewater stream, allowable graywater storage, onsite treatment requirements, and permitted graywater use applications. Existing regulations and plumbing codes in the different states suggest that there are impediments to overcome but also potential incentives for graywater reuse. It is encouraging that regulations in 29 states promote safe graywater reuse, but there are also inconsistencies between plumbing codes and other regulations within and among the 50 states. Impediments to graywater reuse include disallowances of graywater segregation or collection, and restriction of graywater reuse to mostly subsurface irrigation with limited indoor use permission. Ease on restrictions and guidelines to promote development of low-cost and proven treatment technologies are needed to promote graywater reuse.

  2. Processing solid propellants for recycling

    Whinnery, L.L.; Griffiths, S.K.; Handrock, J.L.; Lipkin, J.


    Rapid evolution in the structure of military forces worldwide is resulting in the retirement of numerous weapon systems. Many of these systems include rocket motors containing highly energetic propellants based on hazardous nitrocellulose/nitroglycerin (NC/NG) mixtures. Even as the surplus quantities of such material increases, however, current disposal methods -- principally open burning and open detonation (OB/OD) -- are coming under close scrutiny from environmental regulators. Environmentally conscious alternatives to disposal of propellant and explosives are thus receiving renewed interest. Recycle and reuse alternatives to OB/OD appear particularly attractive because some of the energetic materials in the inventories of surplus weapon systems represent potentially valuable resources to the commercial explosives and chemical industries. The ability to reclaim such resources is therefore likely to be a key requirement of any successful technology of the future in rocket motor demilitarization. This document consists of view graphs from the poster session.

  3. Characteristic Analysis for the Recycled Uranium of the Pyroprocess

    Park, Chang Je; Ryu, Ho Jin; Na, Sang Ho; Kang, Kweon Ho [Korea Atomic Energy Research Institute, Daejeon (Korea, Republic of)


    In order to recover uranium and TRU from spent nuclear fuels, a pyroprocessing has been developed through a dry and metallurgical reprocess technology using a series of electrolyses such as an electro-reduction, an electro-refining, and an electro-winning. When the spent fuel is being fed into the pyroprocess, most of the uranium is gathered in metallic form around a solid cathode during an electro-refining process. It is expected that the recovered uranium will be sent to a spent fuel storage site after converting it into a metal ingot form to reduce its storage space and transportation burden. However, the weight percent of U-235 in the recovered uranium is about 0.9 wt% and it is sufficiently re-utilized in a heavy water reactor which uses a natural uranium fuel. The reuse of recovered uranium will bring not only a huge economical profit and save of uranium resources but also an alleviation of burden on the management and disposal of the spent fuel. A previous research on recycling of recovered uranium was carried out and most of the recovered uranium was assumed to be imported from abroad at that time. The preliminary results showed there is a sufficient possibility to recycle recovered uranium in terms of a reactor's characteristics as well as the fuel performance. And the DUPIC (direct use of spent pressurized water reactor fuel into CANDU reactor) program has also been performed and demonstrated the fundamental technologies. The recovered uranium from a pyroprocess contains some TRU as an impurity and it will exhibit a slightly different behavior from the previous recycling options. In this report, the reactor's characteristics including discharge burnup are investigated based on the lattice calculations which are performed for the CANFELX bundle.


    TIMOFTE Claudia Simona


    Full Text Available The paper presents arguments and examples regarding the need to reuse, sort, manage and recycle more efficiently the textile wastes. Waste are increasing from a quantitative point of view and represent a major problem in each European country and the textile waste represent 5% of the total quantity of waste at a global level. It is estimated that about 95% of what it reaches the landfill could be reused so that the necessity of recycling is obvious. The constant need of transforming the wastes into by-products represents a priority because the textile waste have a special characteristic in the way that they can be reused or even repurposed. The paper also syhthesizes the legislation that makes reference to the textile waste, their classification and the obligations of the local community members, natural or legal persons. It is also presents the current situation of the textile waste with respect to Romania and Bihor county, but there are also presented other numerous cases, examples and situations in which the waste is recovered/collected properly. The examples have the role of showing and emphasizing the concerns of some companies, brands, institutions or local authorities, specialists and specialized personnel within the agencies of environmental protection to encourage recycling or reuse of the textile products that are inappropriately considered as wastes. The information for this paper was collected from literature, from the Agency of Environmental Protection Bihor and on the Internet.

  5. Post-vehicle-application lithium-ion battery remanufacturing, repurposing and recycling capacity: Modeling and analysis

    Charles Robert Standridge


    recycling is relatively constant regardless of the percent of post-vehicle-application batteries that are remanufactured.  The sum of the capacity for remanufacturing and recycling is relatively constant as well.  The need for new battery production capacity is reduced significantly (> 10% for remanufacturing percentages of 55% and above. Research limitations/implications: There is a high degree of uncertainty associated with any forecast concerning post-vehicle-application lithium-ion batteries due to a lack of experience with their remanufacturing, repurposing, and recycling. Practical implications: Electrification of vehicles appears to be the only technically feasible approach to meeting government regulations concerning mileage and emissions (Center for Climate and Energy Solutions 2013.  The planning in the present for the remanufacturing, repurposing, and recycling of the lithium-ion batteries used in electrification of vehicles is necessary.  Capacity estimation is one important component of such planning. Social implications: The electrification of vehicles versus the use of fossil fuels is consistent with the guiding principles of sustainability in helping to meet current needs without compromising the needs and resources of future generations.  Reusing entire lithium-ion batteries or recycling the materials of which they are composed further reinforces the sustainability of vehicle electrification. Originality/value: Estimates of recycling capacity needed in 2030, about 2.69M kWh, change little with the percent of post-vehicle-application batteries that are remanufactured.  The need for significant recycling capacity appears between 2022 and 2024, increasing steadily thereafter.  Similarly, the sum of remanufacturing and repurposing capacity is relatively constant indicating the need for flexible facilities that can do either task.  In addition by 2030, up to approximately 25% of new battery production could be replaced by remanufactured batteries.

  6. 再生水中硫酸盐还原菌对铜合金的腐蚀%Effect of Sulfate Reducing Bacteria on Corrosion of Copper Alloy HSn701-AB in Recycled Water

    李娟; 李进; 焦迪


    The morphology and growth characters of sulfate reducing bacteria, which were separated from recycled water, and its effect on corrosion of copper alloy HSn701-AB in recycled water were investigated by means of microbiological technology, surface analysis technique and electrochemical impedance spectroscopy. The results showed that the growth of SRB had 2 d~3 d's lag phase in recycled water. After immersed in recycled water with SRB for 3 days, the copper alloy HSn701-AB showed features of barrier diffusion impedance, and with the immersion time increased, the corrosion of HSn701-AB became severe in company with formation of a dense SRB bio-film.%采用微生物技术、表面分析技术以及电化学测量技术,研究了从再生水环境中分离提纯得到的硫酸盐还原菌(SRB)的形态、生长规律,以及SRB对铜合金HSn701-AB在再生水环境中腐蚀的影响.结果表明,在再生水环境中SRB的生长曲线存在2 d~3 d的停滞期;铜合金HSn701~AB在接种SRB的再生水环境中浸泡3 d时,出现阻挡层扩散阻抗,随着浸泡时间的增长,腐蚀加重,20 d时其表而生成致密的SRB生物膜.

  7. Record Management and Design Reuse

    Briggs, Hugh C.


    Government mandated records management requirements apply to retention and long term archival of a wide variety of records. Part of the attention is on permanent accession and retention by the U.S. National Archives and Records Administration (NARA) but interim requirements for storage by the source agency are included. As government agencies and the Department of Defense move toward implementations, additional goals often include saving design data for reuse. This paper briefly reviews the government records management requirements then investigates candidate meanings of 'reuse' and proposes an enhanced design records retention approach. The recommended strategy that emerges is, for a given program or product family, to invest in rich and readily re-executable preservation of design artifacts for one or two subsequent generations, then downgrade the data in utility through conversions, ultimately reaching the NARA minimum standard for permanent historical-interest archives.

  8. Possibilities for reuse of treated domestic wastewater in the Netherlands.

    Rietveld, L C; Norton-Brandão, D; Shang, R; van Agtmaal, J; van Lier, J B


    The implementation of wastewater reuse is becoming an increasingly important means of supplementing water supply needs and/or reducing costs. The present paper provides examples of possible uses of treated domestic effluent for the three sectors, i.e. public water supply, industrial and agricultural uses with the aim to address the feasibility of these applications. It is concluded that, although The Netherlands as a whole is considered to be a low water stressed country, regional fresh water scarcity and costs can result in the need for applications of domestic wastewater reuse.

  9. Study of the Technical Feasibility of Increasing the Amount of Recycled Concrete Waste Used in Ready-Mix Concrete Production.

    Fraile-Garcia, Esteban; Ferreiro-Cabello, Javier; López-Ochoa, Luis M; López-González, Luis M


    The construction industry generates a considerable amount of waste. Faced with this undesirable situation, the ready-mix concrete sector, in particular, has invested energy and resources into reusing its own waste in its production process as it works towards the goal of more sustainable construction. This study examines the feasibility of incorporating two types of concrete waste, which currently end up in landfill, into the production process of ready-mix concrete: the waste generated during the initial production stage (ready-mix concrete waste), and waste created when demolition waste is treated to obtain artificial aggregate. The first phase of the study's methodology corroborates the suitability of the recycled aggregate through characterization tests. After this phase, the impact of incorporating different percentages of recycled coarse aggregate is evaluated by examining the performance of the produced concrete. The replacement rate varied between 15% and 50%. The results indicate that recycled aggregates are, indeed, suitable to be incorporated into ready-mix concrete production. The impact on the final product's performance is different for the two cases examined herein. Incorporating aggregates from generic concrete blocks led to a 20% decrease in the produced concrete's strength performance. On the other hand, using recycled aggregates made from the demolition waste led to a smaller decrease in the concrete's performance: about 8%. The results indicate that with adequate management and prior treatment, the waste from these plants can be re-incorporated into their production processes. If concrete waste is re-used, concrete production, in general, becomes more sustainable for two reasons: less waste ends up as landfill and the consumption of natural aggregates is also reduced.

  10. Separating and Recycling Plastic, Glass, and Gallium from Waste Solar Cell Modules by Nitrogen Pyrolysis and Vacuum Decomposition.

    Zhang, Lingen; Xu, Zhenming


    Many countries have gained benefits through the solar cells industry due to its high efficiency and nonpolluting power generation associated with solar energy. Accordingly, the market of solar cell modules is expanding rapidly in recent decade. However, how to environmentally friendly and effectively recycle waste solar cell modules is seldom concerned. Based on nitrogen pyrolysis and vacuum decomposition, this work can successfully recycle useful organic components, glass, and gallium from solar cell modules. The results were summarized as follows: (i) nitrogen pyrolysis process can effectively decompose plastic. Organic conversion rate approached 100% in the condition of 773 K, 30 min, and 0.5 L/min N2 flow rate. But, it should be noted that pyrolysis temperature should not exceed 773 K, and harmful products would be increased with the increasing of temperature, such as benzene and its derivatives by GC-MS measurement; (ii) separation principle, products analysis, and optimization of vacuum decomposition were discussed. Gallium can be well recycled under temperature of 1123 K, system pressure of 1 Pa and reaction time of 40 min. This technology is quite significant in accordance with the "Reduce, Reuse, and Recycle Principle" for solid waste, and provides an opportunity for sustainable development of photovoltaic industry.

  11. Formalisms for reuse and systems integration

    Rubin, Stuart


    Reuse and integration are defined as synergistic concepts, where reuse addresses how to minimize redundancy in the creation of components; while, integration focuses on component composition. Integration supports reuse and vice versa. These related concepts support the design of software and systems for maximizing performance while minimizing cost. Knowledge, like data, is subject to reuse; and, each can be interpreted as the other. This means that inherent complexity, a measure of the potential utility of a system, is directly proportional to the extent to which it maximizes reuse and integration. Formal methods can provide an appropriate context for the rigorous handling of these synergistic concepts. Furthermore, formal languages allow for non ambiguous model specification; and, formal verification techniques provide support for insuring the validity of reuse and integration mechanisms.   This edited book includes 12 high quality research papers written by experts in formal aspects of reuse and integratio...

  12. Reusing larval rearing water and its effect on development and quality of Anopheles arabiensis mosquitoes.

    Mamai, Wadaka; Lees, Rosemary Susan; Maiga, Hamidou; Gilles, Jeremie R L


    There is growing interest in applying the sterile insect technique (SIT) against mosquitoes. Mass production of mosquitoes for large-scale releases demands a huge amount of water. Yet, many arid and/or seasonally arid countries face the difficulties of acute water shortage, deterioration of water quality and environmental constraints. The re-use of water to rear successive generations of larvae is attractive as a way to reduce water usage and running costs, and help to make this control method viable. To determine whether dirty larval water was a suitable rearing medium for Anopheles arabiensis, in place of the 'clean' dechlorinated water routinely used, a series of three experiments was carried out to evaluate the effect of dirty water or mixed clean and dirty water on several parameters of insect quality. Batches of 100 fresh eggs were distributed in dirty water or added to clean water to test the effect of dirty water on egg hatching, whereas first-instar larvae were used to determine the effect on immature development time, pupation, adult emergence, body size, and longevity. Moreover, to assess the effect of dirty water on larval mortality, pupation rate, adult emergence, and longevity, L4 larvae collected after the tilting or larvae/pupae separation events were returned either to the dirty water or added to clean water. Results indicated that reusing dirty water or using a 50:50 mix of clean and dirty water did not affect egg hatching. Moreover, no difference was found in time to pupation, larval mortality or sex ratio when first-instar larvae were added to clean water, dirty water, or a 75:25, 50:50 or 25:75 mix of clean and dirty water and reared until emergence. When late-instar larvae were put back into their own rearing water, there was no effect on pupation rate, emergence rate or female longevity, though male longevity was reduced. When reared from first-instar larvae, however, dirty water decreased pupation rate, emergence rate, body size, and adult

  13. Life cycle assessment of water reuse systems in an industrial park.

    Tong, Le; Liu, Xin; Liu, Xuewei; Yuan, Zengwei; Zhang, Qiong


    The rapid development of industrial parks in China has resulted in large resource consumption and pollutant emissions, especially freshwater use and wastewater discharge. Water reuse has attracted much attention from governments because of its potential to conserve freshwater and reduce pollutant emissions. However, water reuse usually means adding advanced treatment which consumes chemicals, materials and energy. Is the water reuse beneficial for the environment from a life cycle perspective? To answer this question, we quantified the environmental impacts of reusing treated wastewater at industrial parks under different scenarios through a comparative life-cycle assessment (LCA). Four scenarios are assessed: wastewater is treated and discharged, 20% and 99% of wastewater is treated and reused as industrial process water, and treated wastewater is used for horticulture. Inventory data were mainly obtained from a facility which manages the wastewater treatment and reuse system of an industrial park in Jiangsu Province. Environmental impacts were evaluated using the CML2001 method built into the GaBi version 4.3 database. The results show the water reuse is beneficial and the reuse rate significantly affects environmental performance of the system. It is also found that using the reclaimed water for higher value applications results in larger environmental credit. Decision makers in water management should consider both water quantity and quality and associated environmental impacts for different water reuse applications.

  14. Energy implications of recycling packaging materials

    Gaines, L.L. [Argonne National Lab., IL (United States); Stodolsky, F. [Argonne National Lab., Washington, DC (United States)


    In 1992, Congress sought to rewrite the United States comprehensive solid waste legislation -- the Resource Conservation and Recovery Act (RCRA). Commodity-specific recycling rates were proposed for consumer-goods packaging materials and newsprint We compare the impacts on energy, materials use, and landfill volume of recycling at those rates to the impacts for alternative methods of material disposition to determine the optimum for each material. After products have served their intended uses, there are several alternative paths for material disposition. These include reuse, recycling to the same product, recycling to a lower-valued product, combustion for energy recovery, incineration without energy recovery, and landfill. Only options considered to be environmentally sound are Included. Both houses of Congress specifically excluded combustion for energy recovery from counting towards the recovery goats, probably because combustion is viewed as a form of disposal and is therefore assumed to waste resources and have n environmental effects. However, co-combustion in coal-fired plants or combustion in appropriately pollution-controlled waste-to-energy plants Is safe, avoids landfill costs, and can displace fossil fuels. In some cases, more fossil fuels can be displaced by combustion than by recycling. We compare the alternative life-cycle energies to the energies for producing the products from virgin materials. Results depend on the material and on the objective to be achieved. There are trade-offs among possible goals. For instance, paper packaging recycling conserves trees but may require greater fossil-fuel input than virgin production. Therefore, the objectives for proposed legislation must be examined to see whether they can most effectively be achieved by mandated recycling rates or by other methods of disposition. The optimal choices for the United States may not necessarily be the same as those for Europe and other parts of the world.

  15. Recycling Today Makes for a Better Tomorrow.

    Raze, Robert E., Jr.


    Today's children must be educated about solid waste management and recycling to reduce the amount of waste that goes into landfills. The article describes what can be recycled (newspapers, corrugated cardboard, paper, glass, aluminum, textiles, motor oil, organic wastes, appliances, steel cans, and plastics). It also lists student environment…


    Kartini Aboo Talib Khalid


    Full Text Available Styrofoam is extensively used in food packaging businesses throughout the world. Its light weight makes it a favorite food package for entrepreneurs in food businesses. However, unlike its content, the food, which decomposed easily after some time, Styrofoam remains un-decomposed due to its oil-based structure. This study discusses the prospects of re-utilization of Styrofoam as environmentally friendly recycled material. This study uses the data from an exploratory survey on the usage of Styrofoam for food packaging-conducted in the district of Bangi, Malaysia-to highlight the magnitude of Styrofoam-waste generated in these activities. The study shows that Styrofoam can be used in combination of cement and concrete to produce a light weight, energy efficient and strong building can be built. Since there are a lot of supplies of waste Styrofoam, this material can be re-used in as part of construction material. In addition the use of Styrofoam in construction could be an innovative way for constructing termite’s free buildings. This study shows that recycling Styrofoam can assist in building environmentally friendly and cost efficient human habitat. Styrofoam can be channeled for a good cause and ways of governing the recycled materials. As such, the industrial waste generated by Styrofoam can be turned into other uses, thus reducing its environmental problems.

  17. Recycling production designs: the value of coordination and flexibility in aluminum recycling operations

    Brommer, Tracey H.

    center production design based on maximizing liquid recycled product incorporation and minimizing cast sows. The long term production optimization model was used to evaluate the theoretical viability of the proposed two stage scrap and aluminum dross reprocessing operation including the impact of reducing coordination on model performance. Reducing the coordination between the recycling center and downstream remelters by reducing the number of recycled products from ten to five resulted in only 1.3% less secondary materials incorporated into downstream production. The dynamic simulation tool was used to evaluate the performance of the calculated recycling center production plan when resolved on a daily timeframe for varying levels of operational flexibility. The dynamic simulation revealed the optimal performance corresponded to the fixed recipe with flexible production daily optimization model formulation. Calculating recycled product characteristics using the proposed simulation optimization method increased profitability in cases of uncertain downstream remelter production and expensive aluminum dross and post-consumed secondary materials. (Copies available exclusively from MIT Libraries, -

  18. Recycling plastics and polymeric wastes. (Latest citations from the EI compendex*plus database). Published Search



    The bibliography contains citations concerning the recycling and uses of plastic and polymeric scraps and wastes. Topics include communition or grinding of scrap, degradation by heat or chemical reaction, compatibility of various plastics with one another, sorting problems, physical properties of reprocessed materials, economics, public awareness, waste minimization, waste re-use, and foreign experience in plastics recycling. New products made from recycled materials, and products expressly made to be recyclable are also discussed. (Contains 50-250 citations and includes a subject term index and title list.) (Copyright NERAC, Inc. 1995)

  19. Recycled of nuclear fuel versus the storage of waste - economic aspects; Reciclado de combustible nuclear versus el almacenamiento de los residuos-aspectos economicos

    Moratilla, Y.


    This paper attempts to compare the costs involved of storage - open-cycle - in relation to the associated costs to one alternative to recycling and reuse - closed-cycle - based on existing studies today at the international level.

  20. Review of the technological approaches for grey water treatment and reuses.

    Li, Fangyue; Wichmann, Knut; Otterpohl, Ralf


    Based on literature review, a non-potable urban grey water reuse standard is proposed and the treatment alternatives and reuse scheme for grey water reuses are evaluated according to grey water characteristics and the proposed standard. The literature review shows that all types of grey water have good biodegradability. The bathroom and the laundry grey water are deficient in both nitrogen and phosphors. The kitchen grey water has a balanced COD: N: P ratio. The review also reveals that physical processes alone are not sufficient to guarantee an adequate reduction of the organics, nutrients and surfactants. The chemical processes can efficiently remove the suspended solids, organic materials and surfactants in the low strength grey water. The combination of aerobic biological process with physical filtration and disinfection is considered to be the most economical and feasible solution for grey water recycling. The MBR appears to be a very attractive solution in collective urban residential buildings.

  1. Modelling Recycling Targets

    hill, amanda; Leinikka Dall, Ole; Andersen, Frits Møller


    Within the European Union (EU) a paradigm shift is currently occurring in the waste sector, where EU waste directives and national waste strategies are placing emphasis on resource efficiency and recycling targets. The most recent Danish resource strategy calculates a national recycling rate of 22......% for household waste, and sets an ambitious goal of a 50% recycling rate by 2020. This study integrates the recycling target into the FRIDA model to project how much waste and from which streams should be diverted from incineration to recycling in order to achieve the target. Furthermore, it discusses how...... the existing technological, organizational and legislative frameworks may affect recycling activities. The results of the analysis show that with current best practice recycling rates, the 50% recycling rate cannot be reached without recycling of household biowaste. It also shows that all Danish municipalities...

  2. Bioaugmentation: An Emerging Strategy of Industrial Wastewater Treatment for Reuse and Discharge

    Alexis Nzila; Shaikh Abdur Razzak; Jesse Zhu


    A promising long-term and sustainable solution to the growing scarcity of water worldwide is to recycle and reuse wastewater. In wastewater treatment plants, the biodegradation of contaminants or pollutants by harnessing microorganisms present in activated sludge is one of the most important strategies to remove organic contaminants from wastewater. However, this approach has limitations because many pollutants are not efficiently eliminated. To counterbalance the limitations, bioaugmentation...

  3. Potential for Reuse of E-Plastics through Processing by Compression Molding

    William Mills


    Full Text Available The amounts of e-waste, consisting of metal (e-metals and plastic (e-plastics streams from electronic goods, are increasing in the United States and elsewhere. The e-metals waste streams are being recycled to a reasonable degree due to the value of precious metals. E-plastic waste streams currently are not recycled or reused to a significant extent. As a result, most e-plastics are disposed of by landfilling or thermal treatment, or sent overseas for alleged recycling or reuse, any of which could result in unsafe worker exposure and release into the environment. Two of the major barriers to e-plastics’ reuse or recycling are the mixed plastic content and the presence in the e-plastics of flame retardants (FR, of which two classes in particular, the brominated flame retardants (BFR and organo-phosphorus flame retardants (OPFR, have associated health concerns. The major goal of this project is to investigate the possibility of direct reuse of e-plastics in compression molding. Preliminary data generated have identified a molding procedure that yields remanufactured e-plastics having a tensile strength of 29.3 MPa. This moderate strength level is suspected to be due to inclusions of plastic bits that did not melt and internal voids from out-gassing. Handheld X-ray fluorescence (XRF was utilized to characterize elemental components in the e-plastics tested for compression molding. Several high “hits” for Br were found that could not be predicted visually. The preliminary XRF data for BFR and OPFR in this work are helpful for environmental and occupational hazard assessments of compression molding activities. Additionally, methods are suggested to characterize the metals, BFR, and OPFR content of the e-plastics using several different additional laboratory analytical techniques to determine the suitability for cost-effective and easy-to-use technologies.

  4. Recycled Coarse Aggregate Produced by Pulsed Discharge in Water

    Namihira, Takao; Shigeishi, Mitsuhiro; Nakashima, Kazuyuki; Murakami, Akira; Kuroki, Kaori; Kiyan, Tsuyoshi; Tomoda, Yuichi; Sakugawa, Takashi; Katsuki, Sunao; Akiyama, Hidenori; Ohtsu, Masayasu

    In Japan, the recycling ratio of concrete scraps has been kept over 98 % after the Law for the Recycling of Construction Materials was enforced in 2000. In the present, most of concrete scraps were recycled as the Lower Subbase Course Material. On the other hand, it is predicted to be difficult to keep this higher recycling ratio in the near future because concrete scraps increase rapidly and would reach to over 3 times of present situation in 2010. In addition, the demand of concrete scraps as the Lower Subbase Course Material has been decreased. Therefore, new way to reuse concrete scraps must be developed. Concrete scraps normally consist of 70 % of coarse aggregate, 19 % of water and 11 % of cement. To obtain the higher recycling ratio, the higher recycling ratio of coarse aggregate is desired. In this paper, a new method for recycling coarse aggregate from concrete scraps has been developed and demonstrated. The system includes a Marx generator and a point to hemisphere mesh electrode immersed in water. In the demonstration, the test piece of concrete scrap was located between the electrodes and was treated by the pulsed discharge. After discharge treatment of test piece, the recycling coarse aggregates were evaluated under JIS and TS and had enough quality for utilization as the coarse aggregate.

  5. Logistics Mode and Network Planning for Recycle of Crop Straw Resources

    Zhou, Lingyun; Gu, Weidong; Zhang, Qing


    To realize the straw biomass industrialized development, it should speed up building crop straw resource recycle logistics network, increasing straw recycle efficiency, and reducing straw utilization cost. On the basis of studying straw recycle process, this paper presents innovative concept and property of straw recycle logistics network, analyses design thinking of straw recycle logistics network, and works out straw recycle logistics mode and network topological structure. Finally, it come...

  6. Greywater reuse: A strategy for water demand management in Harare?

    Madungwe, Emaculate; Sakuringwa, Saniso

    Greywater is wastewater from baths, sinks and washing machines, accounting for about 60% of the outflow from homes. It contains little pathogens and 90% less nitrogen than toilet water, so does not require the same treatment process. With the increasing demand for freshwater, its use may reduce irrigation water needs, increasing its availability of freshwater for other primary uses. Agriculture is the main water consumer in Africa, which cannot be compromised due to its role in domestic food security and export supplies. The purpose of this paper is to demonstrate findings of the research done on benefits of greywater reuse in some countries, applicable to African countries. In Australia, greywater reuse has reduced freshwater demand, strain on wastewater treatment plants and energy consumption. Aquifer recharge has improved due to increased infiltration flows from greywater uses. In Lebanon, greywater is a valuable resource for encouraging plant growth from nutrients that may otherwise have been wasted. Palestine shares similar climate and water scarcity conditions with most arid sub-Saharan African countries, yet utilizes grey water in production of crops and citrus fruits. Thus use of grey water should be possible in African cities such as Harare, where nearly two thirds of the population rely on agriculture for livelihoods. The problem of blue green algae in sewerage ponds and water reservoirs is significantly reduced by household reuse of grey water in Mexico. Water savings are increased and expenses reduced, as illustrated by the reduction in consumption of municipality freshwater supplies in South African urban areas. Rural communities and schools in Namibia and Egypt have raised funds from grey water reuse in banana plantations. A possible constraint to this strategy could be the unavailability of appropriate technology for primary treatment of grey water before reuse. This strategy may pose health risks where water quality tests are unknown or unavailable

  7. Preconceptual Design Description for Caustic Recycle Facility

    Sevigny, Gary J.; Poloski, Adam P.; Fountain, Matthew S.; Kurath, Dean E.


    The U.S. Department of Energy plans to vitrify both high-level and low-activity waste at the Hanford Site in southeastern Washington State. One aspect of the planning includes a need for a caustic recycle process to separate sodium hydroxide for recycle. Sodium is already a major limitation to the waste-oxide loading in the low-activity waste glass to be vitrified at the Waste Treatment Plant, and additional sodium hydroxide will be added to remove aluminum and to control precipitation in the process equipment. Aluminum is being removed from the high level sludge to reduce the number of high level waste canisters produced. A sodium recycle process would reduce the volume of low-activity waste glass produced and minimize the need to purchase new sodium hydroxide, so there is a renewed interest in investigating sodium recycle. This document describes an electrochemical facility for recycling sodium for the WTP.

  8. ICT reuse in socio-economic enterprises

    Ongondo, F.O., E-mail: [Centre for Environmental Sciences, Faculty of Engineering and the Environment, Lanchester Building, University of Southampton, University Rd., Highfield, Southampton, Hampshire SO17 1BJ (United Kingdom); Williams, I.D. [Centre for Environmental Sciences, Faculty of Engineering and the Environment, Lanchester Building, University of Southampton, University Rd., Highfield, Southampton, Hampshire SO17 1BJ (United Kingdom); Dietrich, J. [Technische Universität Berlin, Centre for Scientific Continuing Education and Cooperation, Cooperation and Consulting for Environmental Questions (kubus) FH10-1, Fraunhoferstraße 33-36, 10587 Berlin (Germany); Carroll, C. [Centre for Environmental Sciences, Faculty of Engineering and the Environment, Lanchester Building, University of Southampton, University Rd., Highfield, Southampton, Hampshire SO17 1BJ (United Kingdom)


    Highlights: • We analyse ICT equipment reuse operations of socio-economic enterprises. • Most common ICT products dealt with are computers and related equipment. • In the UK in 2010, ∼143,750 appliances were reused. • Marketing and legislative difficulties are the common hurdles to reuse activities. • Socio-economic enterprises can significantly contribute to resource efficiency. - Abstract: In Europe, socio-economic enterprises such as charities, voluntary organisations and not-for-profit companies are involved in the repair, refurbishment and reuse of various products. This paper characterises and analyses the operations of socio-economic enterprises that are involved in the reuse of Information and Communication Technology (ICT) equipment. Using findings from a survey, the paper specifically analyses the reuse activities of socio-economic enterprises in the UK from which Europe-wide conclusions are drawn. The amount of ICT products handled by the reuse organisations is quantified and potential barriers and opportunities to their operations are analysed. By-products from reuse activities are discussed and recommendations to improve reuse activities are provided. The most common ICT products dealt with by socio-economic enterprises are computers and related equipment. In the UK in 2010, an estimated 143,750 appliances were reused. However, due to limitations in data, it is difficult to compare this number to the amount of new appliances that entered the UK market or the amount of waste electrical and electronic equipment generated in the same period. Difficulties in marketing products and numerous legislative requirements are the most common barriers to reuse operations. Despite various constraints, it is clear that organisations involved in reuse of ICT could contribute significantly to resource efficiency and a circular economy. It is suggested that clustering of their operations into “reuse parks” would enhance both their profile and their

  9. Certified Electronics Recyclers

    Learn how EPA encourages all electronics recyclers become certified by demonstrating to an accredited, independent third-party auditor and that they meet specific standards to safely recycle and manage electronics.

  10. Innovative Design of Plastic Bottle Recycling Box Based on ARM

    Yuedong Xiong


    Full Text Available Aiming at the problems of on-site plastic bottles recycling and the reuse of waste, the automatic recycling system was developed on the basis of ARM. As the main controller, ARM not only controls the mechanical system of the collector to recover and break plastic bottles, but also communicates with and rewards the user by the automatic reward system through the wireless network. The experimental prototype test results show: post treated fragments of plastic bottles are small, which are convenient to transport and take advantage of; the operation of recovery is easy, and the interface of man-machine interaction is friendly which is easy to expand functions.

  11. Software reuse example and challenges at NSIDC

    Billingsley, B. W.; Brodzik, M.; Collins, J. A.


    NSIDC has created a new data discovery and access system, Searchlight, to provide users with the data they want in the format they want. NSIDC Searchlight supports discovery and access to disparate data types with on-the-fly reprojection, regridding and reformatting. Architected to both reuse open source systems and be reused itself, Searchlight reuses GDAL and Proj4 for manipulating data and format conversions, the netCDF Java library for creating netCDF output, MapServer and OpenLayers for defining spatial criteria and the JTS Topology Suite (JTS) in conjunction with Hibernate Spatial for database interaction and rich OGC-compliant spatial objects. The application reuses popular Java and Java Script libraries including Struts 2, Spring, JPA (Hibernate), Sitemesh, JFreeChart, JQuery, DOJO and a PostGIS PostgreSQL database. Future reuse of Searchlight components is supported at varying architecture levels, ranging from the database and model components to web services. We present the tools, libraries and programs that Searchlight has reused. We describe the architecture of Searchlight and explain the strategies deployed for reusing existing software and how Searchlight is built for reuse. We will discuss NSIDC reuse of the Searchlight components to support rapid development of new data delivery systems.

  12. Modelling Recycling Targets

    Hill, Amanda Louise; Leinikka Dall, Ole; Andersen, Frits M.


    % for household waste, and sets an ambitious goal of a 50% recycling rate by 2020. This study integrates the recycling target into the FRIDA model to project how much waste and from which streams should be diverted from incineration to recycling in order to achieve the target. Furthermore, it discusses how...

  13. Chemical Recycle of Plastics

    Sara Fatima


    Full Text Available Various chemical processes currently prevalent in the chemical industry for plastics recycling have been discussed. Possible future scenarios in chemical recycling have also been discussed. Also analyzed are the effects on the environment, the risks, costs and benefits of PVC recycling. Also listed are the various types of plastics and which plastics are safe to use and which not after rcycle

  14. The recycling is moving

    GS Department


    The recycling site currently situated near building 133 has been transferred to the car park of building 156. The site is identified by the sign “RECYCLING” and the above logo. In this new, more accessible site, you will find recycling bins for the following waste: PET (recyclable plastic bottles); Aluminium cans; Nespresso coffee capsules.  

  15. Waste Generation and Recycling: Comparison of Conventional and Industrialized Building Systems

    Rawshan A. Begum


    Full Text Available Problem statement: In the Malaysian construction industry, there is a pressing issue of minimizing construction waste, which cause significant impacts on the environment. With the increasing demand for major infrastructure projects, commercial buildings and housing development programmers, a large amount of construction waste is being produced. Adoption of prefabrication and industrialized building systems is now a priority in the industry and also an important means of reducing waste. Approach: Discussion of the prefabrication adoption were based on a comprehensive review of literatures and studies that contained data, information, findings and evidences related to prefabrication and industrial building systems in Malaysia. This study also highlighted a comparative study of material wastage and recycling based on two project sites e.g., conventional and prefabrication construction. Results: In the Malaysia construction industry, adoption of prefabrication and IBS is strongly encouraged to reduce construction time as well as the industry’s dependency on foreign workers. In addition, this study confirms that a huge amount of material wastage can be reduced by the adoption of prefabrication. This study also revealed that the rates of reused and recycled waste materials are relatively higher in projects that adopt prefabrication. Conclusion: Thus, the adoption of prefabrication and IBS has potential in the reduction of huge waste generation and management problems in the construction sector of Malaysia although there are some challenges in the adoption of prefabrication.

  16. Reuse of Friying Oil on Alternative Soap Fabrication

    Erica Baldasso


    Full Text Available Nowadays, the garbage needs especial attention due to the quantity and its contamination. The used friying oil does not mix with water and can contaminate our clean water. With the recycling of the used friying oil, it can be transformed into soap. The objective of this research was the reuse of friying oil on alternative soap fabrication. The used friying oil was used in three different recipes to test its characteristics. Among the recipes used are the traditional soap, the corn soap and the avocado soap. Most part of the people listened save the friying oil and give it to someone to make the soap, or they themselves make the own soap. The Best soap was the traditional one, but the corn and avocado soap showed good results too.

  17. Beneficially reusing LLRW the Savannah River Site Stainless Steel Program

    Boettinger, W.L.


    With 68 radioactively contaminated excess Process Water Heat Exchangers the Savannah River Site launched its program to turn potential LLRW metal liabilities into assets. Each Heat Exchanger contains approximately 100 tons of 304 Stainless Steel and could be disposed as LLRW by land burial. Instead the 7000 tons of metal will be recycled into LLRW, HLW, and TRU waste containers thereby eliminating the need for near term land disposal and also eliminating the need to add more clean metal to the waste stream. Aspects of the partnership between DOE and Private Industry necessary to accomplish this new mission are described. A life cycle cost analysis associated with past practices of using carbon steel containers to indefinitely store material (contributing to the creation of today`s legacy waste problems) is presented. The avoided cost calculations needed to support the economics of the ``Indifference`` decision process in assessing the Beneficial Reuse option relative to the Burial option are described.

  18. Draft Environmental Impact Statement Reuse of Naval Station Puget Sound, Sand Point, Seattle, Washington. Volume 1.


    continue to be caretaker of the base, but there would be no use of the site. Although both reuse plans have the potential for significant impacts, appropriate mitigation measures by the reuser would reduce the impacts.

  19. Green synthesis of the Pd nanoparticles supported on reduced graphene oxide using barberry fruit extract and its application as a recyclable and heterogeneous catalyst for the reduction of nitroarenes.

    Nasrollahzadeh, Mahmoud; Sajadi, S Mohammad; Rostami-Vartooni, Akbar; Alizadeh, Mohammad; Bagherzadeh, Mojtaba


    Through this manuscript the green synthesis of palladium nanoparticles supported on reduced graphene oxide (Pd NPs/RGO) under the mild conditions through reduction of the graphene oxide and Pd(2+) ions using barberry fruit extract as reducing and stabilizing agent is reported. The as-prepared Pd NPs/RGO was characterized by UV-vis spectroscopy, X-ray diffraction (XRD), Fourier transformed infrared spectroscopy (FT-IR), field emission scanning electron microscopy (FE-SEM), transmission electron microscopy (TEM) and energy dispersive X-ray spectroscopy (EDS). The Pd NPs/RGO could be used as an efficient and heterogeneous catalyst for reduction of nitroarenes using sodium borohydride in an environmental friendly medium. Excellent yields of products were obtained with a wide range of substrates and the catalyst was recycled multiple times without any significant loss of its catalytic activity. Copyright © 2015 Elsevier Inc. All rights reserved.

  20. DWPF Recycle Evaporator Simulant Tests

    Stone, M


    Testing was performed to determine the feasibility and processing characteristics of an evaporation process to reduce the volume of the recycle stream from the Defense Waste Processing Facility (DWPF). The concentrated recycle would be returned to DWPF while the overhead condensate would be transferred to the Effluent Treatment Plant. Various blends of evaporator feed were tested using simulants developed from characterization of actual recycle streams from DWPF and input from DWPF-Engineering. The simulated feed was evaporated in laboratory scale apparatus to target a 30X volume reduction. Condensate and concentrate samples from each run were analyzed and the process characteristics (foaming, scaling, etc) were visually monitored during each run. The following conclusions were made from the testing: Concentration of the ''typical'' recycle stream in DWPF by 30X was feasible. The addition of DWTT recycle streams to the typical recycle stream raises the solids content of the evaporator feed considerably and lowers the amount of concentration that can be achieved. Foaming was noted during all evaporation tests and must be addressed prior to operation of the full-scale evaporator. Tests were conducted that identified Dow Corning 2210 as an antifoam candidate that warrants further evaluation. The condensate has the potential to exceed the ETP WAC for mercury, silicon, and TOC. Controlling the amount of equipment decontamination recycle in the evaporator blend would help meet the TOC limits. The evaporator condensate will be saturated with mercury and elemental mercury will collect in the evaporator condensate collection vessel. No scaling on heating surfaces was noted during the tests, but splatter onto the walls of the evaporation vessels led to a buildup of solids. These solids were difficult to remove with 2M nitric acid. Precipitation of solids was not noted during the testing. Some of the aluminum present in the recycle streams was converted

  1. Eco-efficiency in Recycling Systems: Evaluation Methods & Case Studies for Plastic Packaging

    Eik, Arne; Steinmo, Solveig; Solem, Håvard; Brattebø, Helge; Saugen, Bernt


    Focus on the so-called waste hierarchy, which claims that the prevention of waste is the most environmental friendly option, followed by reuse, remanufacturing, mechanical recycling, feedstock recycling, energy recovery, incineration and landfill, is considered to be an important strategy towards sustainable development. Increased use of plastic packaging for various products and the corresponding increase in waste generated are important challenges that must be dealt with from a waste-hierar...

  2. The effect of powder recycling in direct metal laser deposition on powder and manufactured part characteristics

    Carroll, P A; Pinkerton, A. J.; Allen, J.; Syed, W. U. H.; Sezer, H. K.; Brown, P.; Ng, G; Scudamore, R.; Li, L.


    A potential way of improving the material efficiency and cost effectiveness of the Direct Metal Laser Deposition (DMLD) process is to take powder that is not utilised in each deposition attempt and re-use it in subsequent attempts (powder recycling). Currently, this is not widely implemented for fear of a detrimental effect on part quality. This study examines how powder recycling, using simple normalisation techniques, affects the powder and the quality of the deposited part. Work was conduc...

  3. Experimental study on microstructure and structural behaviour of recycled aggregate concrete

    Etxeberria Larrañaga, Miren


    The use of recycled aggregates in concrete opens a whole new range of possibilities in the reuse of materials in the building industry. This could be an important breakthrough for our society in our endeavours towards sustainable development. The trend of the utilisation of recycled aggregates is the solution to the problem of an excess of waste material, not forgetting the parallel trend of improvement of final product quality. The utilisation of waste construction materials has to be relat...

  4. The implications of household greywater treatment and reuse for municipal wastewater flows and micropollutant loads

    Revitt, Michael; Eriksson, Eva; Donner, Erica


    An increasing worldwide interest in water recycling technologies such as greywater treatment and reuse suggests that additional research to elucidate the fate of xenobiotics during such practices would be beneficial. In this paper, scenario analyses supported by empirical data are used...... for highlighting the potential fate of a election of xenobiotic micropollutants in decentralised greywater treatment systems, and for investigation of the possible implications of greywater recycling for the wider urban water cycle. Potential potable water savings of up to 43% are predicted for greywater recycling...... based on Danish water use statistics and priority substance monitoring at a greywater treatment plant in Denmark. Adsorption represents an important mechanism for the removal of cadmium, nickel, lead and nonylphenol from influent greywater and therefore the disposal route adopted for the generated...

  5. The implications of household greywater treatment and reuse for municipal wastewater flows and micropollutant loads.

    Revitt, D Michael; Eriksson, Eva; Donner, Erica


    An increasing worldwide interest in water recycling technologies such as greywater treatment and reuse suggests that additional research to elucidate the fate of xenobiotics during such practices would be beneficial. In this paper, scenario analyses supported by empirical data are used for highlighting the potential fate of a selection of xenobiotic micropollutants in decentralised greywater treatment systems, and for investigation of the possible implications of greywater recycling for the wider urban water cycle. Potential potable water savings of up to 43% are predicted for greywater recycling based on Danish water use statistics and priority substance monitoring at a greywater treatment plant in Denmark. Adsorption represents an important mechanism for the removal of cadmium, nickel, lead and nonylphenol from influent greywater and therefore the disposal route adopted for the generated sludge can exert a major impact on the overall efficiency and environmental sustainability of greywater treatment.

  6. Recovery of zirconium from pickling solution, regeneration and its reuse

    Bhattacharjee, D. [Nuclear Fuel Complex, Hyderabad 500062 (India); Mandal, D., E-mail: [Alkali Material & Metal Division, Bhabha Atomic Research Centre, Trombay, Mumbai 400085 (India); Visweswara Rao, R.V.R.L.; Sairam, S.; Thakur, S. [Nuclear Fuel Complex, Hyderabad 500062 (India)


    Graphical abstract: The following compares the performance of fresh pickling solution (PS) and regenerated and used pickling solution (UPS). - Highlights: • Pickling of zircaloy tubes and appendages is carried out to remove oxide layer. • The pickling solution become saturated with zirconium due to reuse. • As NaNO{sub 3} concentration increases, conc. of Zr in pickling solution decreases. • Experimental results shows that, used pickling solution can be regenerated. • Regenerated solution may be reused by adding makeup quantities of HF-HNO{sub 3}. - Abstract: The pressurized heavy water reactors use natural uranium oxide (UO{sub 2}) as fuel and uses cladding material made up of zircaloy, an alloy of zirconium. Pickling of zircaloy tubes and appendages viz., spacer and bearing pads is carried out to remove the oxide layer and surface contaminants, if present. Pickling solution, after use for many cycles i.e., used pickling solution (UPS) is sold out to vendors, basically for its zirconium value. UPS, containing a relatively small concentration of hydrofluoric acid. After repeated use, pickling solution become saturated with zirconium fluoride complex and is treated by adding sodium nitrate to precipitate sodium hexafluro-zirconate. The remaining solution can be recycled after suitable makeup for further pickling use. The revenue lost by selling UPS is very high compared to its zirconium value, which causes monetary loss to the processing unit. Experiments were conducted to regenerate and reuse UPS which will save a good amount of revenue and also protect the environment. Experimental details and results are discussed in this paper.

  7. Reuse and Reproduction of Used Refractories


    The paper analyzed the recycle condition and developing trend of used refractories China and other countries, including research achievements of recycles of used refractories such as MgO-C bricks, Al2O3-MgO-C bricks, Al2O3-SiC-C castable and MgO-Cr2O3 bricks. Recycled refractories exhibit the same or even better properties as compared with the original. In addition, prospects for recycle of used refractories are also discusseded.

  8. Achievement report for fiscal 1998 on the research and development of environmental technologies such as recycling. 2. Technology for reducing automobile running noise; 1998 nendo recycle nado kankyo gijutsu kenkyu kaihatsu seika hokokusho. 2. Jidosha sokoon teigen gijutsu



    Experiments and studies are conducted for reducing along-the-road automobile running noise. In the study of noise generation due to tire vibration, it is found that the main mechanism of noise generation on a well-drained pavement is the vibration of tires. A calculation model is built for estimating the vibration of the tire belt from the characteristics of the road surface and the tire. In the study of air column resonance in the tread groove, a method is studied of measuring fluctuations in the sound pressure in the tread groove. Measurement is conducted, and it is found that the generally accepted explanation, in which air column resonance is attributed to tread vibration generated upon collision of the tire with the road surface, needs further study for substantiation. In a model experiment, it is found that air column resonance hardly occurs on a well-drained pavement. In the study of hydroplaning, it is found that, even when the total volume of the tread longitudinal grooves is the same, the hydroplaning performance tends to improve when the groove arrangement and crown curvature are proper. (NEDO)

  9. Computational reuse optimisation for stadium design

    Van der Steen, J.; Coenders, J.L.; Pasterkamp, S.; Rolvink, A.; Van Steekelenburg, J.


    This paper presents a proof of concept study into a computational strategy for reusing structural stadium elements. The strategy goal is overcoming the reuse design strain through implementation of a genetic algorithm. This algorithm is calibrated to search for a structural frame configuration, whil

  10. What is Type-Safe Code Reuse

    Schwartzbach, Michael Ignatieff; Palsberg, Jens


    Subclassing is reuse of class definitions. It is usually tied to the use of class names, thus relying on the order in which the particular classes in a program are created. This is a burden, however, both when programming and in theoretical studies. This paper presents a structural notion of subc...... type-safe code reuse....

  11. Supplemental Release Limits for the Directed Reuse of Lead in Shielding Products by the Department of Energy

    Coleman, R.L.


    The DOE National Center of Excellence for Metals Recycle (NMR) proposes to define and implement a complex-wide directed reuse strategy for surplus radiologically impacted lead (Pb) as part of the U.S. Department of Energy's commitment to the safe and cost-effective recycle or reuse of excess materials and equipment across the DOE complex. NMR will, under this proposal, act on behalf of the DOE Office of Environmental Management, Office of Technical Program Integration (specifically EM-22), as the Department's clearinghouse for DOE surplus lead and lead products by developing and maintaining a cost-effective commercially-based contaminated lead recycle program. It is NMR's intention, through this directed reuse strategy, to mitigate the adverse environmental and economic consequences of managing surplus lead as a waste within the complex. This approach would promote the safe and cost-effective reuse of DOE's scrap and surplus lead in support of the Department's goals of resource utilization, energy conservation, pollution prevention and waste minimization. This report discusses recommendations for supplemental radiological limits for the directed reuse of contaminated lead and lead products by the DOE within the nuclear industry. The limits were selected--with slight modification--from the recently published American National Standards Institute and Health Physics Society standard N13.12 titled Surface and Volume Radioactivity Standards for Clearance (ANSI/HPS 1999) and are being submitted for formal approval by the DOE. Health and measurement implications from the adoption and use of the limits for directed reuse scenarios are discussed within this report.

  12. ICT reuse in socio-economic enterprises.

    Ongondo, F O; Williams, I D; Dietrich, J; Carroll, C


    In Europe, socio-economic enterprises such as charities, voluntary organisations and not-for-profit companies are involved in the repair, refurbishment and reuse of various products. This paper characterises and analyses the operations of socio-economic enterprises that are involved in the reuse of Information and Communication Technology (ICT) equipment. Using findings from a survey, the paper specifically analyses the reuse activities of socio-economic enterprises in the U.K. from which Europe-wide conclusions are drawn. The amount of ICT products handled by the reuse organisations is quantified and potential barriers and opportunities to their operations are analysed. By-products from reuse activities are discussed and recommendations to improve reuse activities are provided. The most common ICT products dealt with by socio-economic enterprises are computers and related equipment. In the U.K. in 2010, an estimated 143,750 appliances were reused. However, due to limitations in data, it is difficult to compare this number to the amount of new appliances that entered the U.K. market or the amount of waste electrical and electronic equipment generated in the same period. Difficulties in marketing products and numerous legislative requirements are the most common barriers to reuse operations. Despite various constraints, it is clear that organisations involved in reuse of ICT could contribute significantly to resource efficiency and a circular economy. It is suggested that clustering of their operations into "reuse parks" would enhance both their profile and their products. Reuse parks would also improve consumer confidence in and subsequently sales of the products. Further, it is advocated that industrial networking opportunities for the exchange of by-products resulting from the organisations' activities should be investigated. The findings make two significant contributions to the current literature. One, they provide a detailed insight into the reuse operations

  13. Wastewater and Sludge Reuse Management in Agriculture

    Ioannis K. Kalavrouziotis


    Full Text Available Huge quantities of treated wastewater (TMWW and biosolids (sludge are produced every day all over the world, which exert a strong pressure on the environment. An important question that is raised is “what to do with them?”.An effort is put by the scientific community to eliminate the concept of “waste” and to replace it with the concept of “recycling of resources”, by means of effective management, which does not concern only the users, but all the other groups involved in the problem, such as facility administrators, operations, politicians, scientific community and the general population. Sludge concentration data showed that there exist 516 chemicals in biosolids which create a serious health risk. It is pointed out that this risk will be greatly exacerbated by chemical toxins present in the sludge which can predispose skin to infection by pathogens. Consequently, the need for science-based policies are necessary to effectively protect public health. The risk assessment due to sludge, is difficult to evaluate of due to the large number of unknown interactions involved. People living near the sludge application sites may suffer from such abnormalities as: eye, nose, and throat irritation, gastrointestinal abnormalities, as nausea, vomiting, diarrhea, including cough, difficulty in breathing, sinus congestion, skin infection and sores. Many problems seem to be related to biosolid and wastewater application in agriculture, which should be solved. A universal one, acknowledged as an “international health crisis” is the resistance of pathogens to antibiotics and to the evolution of multidrug resistance of bacteria”. Certain anthropogenically created environments have been identified as major sources of multidrug resistance bacteria such as in water treatment plants, concentrated animal feeding operations etc. All these, and many other health problems, render the safety of sludge and biosolid and wastewater agricultural reuse, for

  14. Reuse of Lathe Waste Steel Scrap in Concrete Pavements

    Pooja Shrivastavaa


    Full Text Available These project works assess on the study of the workability and mechanical strength properties of the concrete reinforced with industrialized waste fibers or the recycled fibers. In each lathe industries wastes are available in form of steel scraps are yield by the lathe machines in process of finishing of different machines parts and dumping of these wastes in the barren soil contaminating the soil and ground water that builds an unhealthy environment. Now a day’s these steel scraps as a waste products used by innovative construction industry and also in transportation and highway industry. In addition to get sustainable progress and environmental remuneration, lathe scrap as worn-recycle fibers with concrete are likely to be used. When the steel scrap reinforced in concrete it acquire a term; fiber reinforced concrete and steel fibers in concrete defined as steel fiber reinforced concrete (SFRC.Different experimental studies are done to identify about fresh and hardened concrete properties of steel scrap fiber reinforced concrete (SSFRC and their mechanical properties are found to be increase due to the addition of steel scrap in concrete i.e. compressive strength, flexural strength, impact strength, fatigue strength and split tensile strength were increased but up to 0.5-2% scrap content . When compared with usual concrete to SSFRC, flexural strength increases by 40% and considerable increases in tensile and compressive strength. These steel scrap also aid to improve the shrinkage reduction, cracking resistance i.e. preventing crack propagation and modulus of elasticity. The workability of fresh SSFRC are carried out by using slump test but it restricted to less scrap contents. This work focuses on the enhancement of structural strength and improvement in fatigue life of concrete pavements by reuse of scrap steel in concrete. These concrete roads with SSFRC promises an appreciably eminent design life, offer superior serviceability and

  15. The chemical recycle of cotton

    Alice Beyer Schuch


    Full Text Available The chemical recycle of cotton textiles and/or other cellulosic materials for the purpose of manufacturing regenerated high quality textiles fibres is a novel process. The objective of related research is based on the forecast of population growth, on resource scarcity predictions, and on the negative environmental impact of the textile industry. These facts lead the need of broadening the scope for long-term textile-to-textile recycle - as the mechanical recycle of natural fibres serve for limited number of cycles, still depends on input of virgin material, and offer a reduced-in-quality output. Critical analysis of scientific papers, relevant related reports, and personal interviews were the base of this study, which shows viable results in laboratorial scale of using low-quality cellulosic materials as input for the development of high-quality regenerated textile fibres though ecological chemical process. Nevertheless, to scale up and implement this innovative recycle method, other peripheral structures are requested, such as recover schemes or appropriate sort, for instance. Further researches should also be considered in regards to colours and impurities.


    Barsan Lucian


    Full Text Available The paper presents a number of regulations which should be respected when designing a package. Package represents a large percent of the total waste, therefore we should focus on this ‘type’ of product to reduce the resources used and also to reduce the waste through reusing and recycling. Design is strongly involved in this activity analysing the package lifecycle and trying to respect some rules, which represent the fundaments for a design strategy. Regulations regarding materials choosing, materials combinations, choosing the most adequate process are presented. Either the package is reusable or not, it must be recyclable. The possibility of simply dismantle the package for sorting the materials represent another requirement for the design process. Examples of good practice are presented as a case study.

  17. Is Municipal Solid Waste Recycling Economically Efficient?

    Lavee, Doron


    It has traditionally been argued that recycling municipal solid waste (MSW) is usually not economically viable and that only when externalities, long-term dynamic considerations, and/or the entire product life cycle are taken into account, recycling becomes worthwhile from a social point of view. This article explores the results of a wide study conducted in Israel in the years 2000 2004. Our results reveal that recycling is optimal more often than usually claimed, even when externality considerations are ignored. The study is unique in the tools it uses to explore the efficiency of recycling: a computer-based simulation applied to an extensive database. We developed a simulation for assessing the costs of handling and treating MSW under different waste-management systems and used this simulation to explore possible cost reductions obtained by designating some of the waste (otherwise sent to landfill) to recycling. We ran the simulation on data from 79 municipalities in Israel that produce over 60% of MSW in Israel. For each municipality, we were able to arrive at an optimal method of waste management and compare the costs associated with 100% landfilling to the costs born by the municipality when some of the waste is recycled. Our results indicate that for 51% of the municipalities, it would be efficient to adopt recycling, even without accounting for externality costs. We found that by adopting recycling, municipalities would be able to reduce direct costs by an average of 11%. Through interviews conducted with representatives of municipalities, we were also able to identify obstacles to the utilization of recycling, answering in part the question of why actual recycling levels in Israel are lower than our model predicts they should be.

  18. Variance Analysis and Adaptive Sampling for Indirect Light Path Reuse

    Hao Qin; Xin Sun; Jun Yan; Qi-Ming Hou; Zhong Ren; Kun Zhou


    In this paper, we study the estimation variance of a set of global illumination algorithms based on indirect light path reuse. These algorithms usually contain two passes — in the first pass, a small number of indirect light samples are generated and evaluated, and they are then reused by a large number of reconstruction samples in the second pass. Our analysis shows that the covariance of the reconstruction samples dominates the estimation variance under high reconstruction rates and increasing the reconstruction rate cannot effectively reduce the covariance. We also find that the covariance represents to what degree the indirect light samples are reused during reconstruction. This analysis motivates us to design a heuristic approximating the covariance as well as an adaptive sampling scheme based on this heuristic to reduce the rendering variance. We validate our analysis and adaptive sampling scheme in the indirect light field reconstruction algorithm and the axis-aligned filtering algorithm for indirect lighting. Experiments are in accordance with our analysis and show that rendering artifacts can be greatly reduced at a similar computational cost.

  19. Modeling and Optimizing of Producing Recycled PET from Fabrics Waste via Falling Film-Rotating Disk Combined Reactor

    Dan Qin


    Full Text Available Recycling and reusing of poly (ethylene terephthalate (PET fabrics waste are essential for reducing serious waste of resources and environmental pollution caused by low utilization rate. The liquid-phase polymerization method has advantages of short process flow, low energy consumption, and low production cost. However, unlike prepolymer, the material characteristics of PET fabrics waste (complex composition, high intrinsic viscosity, and large quality fluctuations make its recycling a technique challenge. In this study, the falling film-rotating disk combined reactor is proposed, and the continuous liquid-phase polymerization is modeled by optimizing and correcting existing models for the final stage of PET polymerization to improve the product quality in plant production. Through modeling and simulation, the weight analysis of indexes closely related to the product quality (intrinsic viscosity, carboxyl end group concentration, and diethylene glycol content was investigated to optimize the production process in order to obtain the desired polymer properties and meet specific product material characteristics. The model could be applied to other PET wastes (e.g., bottles and films and extended to investigate different aspects of the recycling process.

  20. Facile coupling of propargylic, allylic and benzylic alcohols with allylsilane and alkynylsilane, and their deoxygenation with Et3SiH, catalyzed by Bi(OTf)3 in [BMIM][BF4] ionic liquid (IL), with recycling and reuse of the IL.

    Kumar, G G K S Narayana; Laali, Kenneth K


    Allyltrimethylsilane (allyl-TMS) reacts with propargylic alcohols 1a-1d in the presence of 10% Bi(OTf)(3) in [BMIM][BF(4)] solvent to furnish the corresponding 1,5-enynes in respectable isolated yields (87-93%) at room temperature. The utility of Bi(OTf)(3) as a superior catalyst was demonstrated in a survey study on coupling of allyl-TMS with employing several metallic triflates (Bi, Ln, Al, Yb) as well as, B(C(6)F(5))(3), Zn(NTf(2))(2) and Bi(NO(3))(3)·5H(2)O. Coupling of cyclopropyl substituted propargylic alcohol with allyl-TMS gave the skeletally intact 1,5-enyne and a ring opened derivative as a mixture. Coupling of propargylic/allylic alcohol with allyl-TMS resulted in allylation at both benzylic (2 isomers) and propargylic positions, as major and minor products respectively. The scope of this methodology for allylation of a series of allylic and benzylic alcohols was explored. Chemoselective reduction of a host of propargylic, propagylic/allylic, bis-allylic, allylic, and benzylic alcohols with Et(3)SiH was achieved in high yields with short reaction times. The same approach was successfully applied to couple representative propargylic and allylic alcohols with 1-phenyl-2-trimethylsilylacetylene. The recovery and reuse of the ionic liquid (IL) was gauged in a case study with minimal decrease in isolated yields after six cycles.

  1. Recycling solid residues recovered from glass fibre-reinforced composites – A review applied to wind turbine blade materials

    Beauson, Justine; Lilholt, Hans; Brøndsted, Povl


    to face large amount of future wind turbine (WT) blades coming to EoL. Among the EoL solutions available for WT blades, i.e. reuse, remanufacturing, recycling, incineration or disposal, this literature review focuses on recycling and particularly the recycling of shredded composite (SC) materials...... and recovered glass fibre (GF) into new polymer composite. WT blades are mainly made of glass fibre reinforced polymer (GFRP) using thermosetting resins. Shredding this material and recovering GF are possible recycling solutions for WT blade. Based on a detailed literature review, the formulations of new...

  2. A Reuse Evaluation for Solar-Cell Silicon Wafers via Shift Revolution and Tool Rotation Using Magnetic Assistance in Ultrasonic Electrochemical Micromachining

    P. S. Pa


    Full Text Available A new reuse fabrication using a tool module with rotation and revolution through a process of magnetic assistance in ultrasonic electrochemical micromachining (UEMM for removal of the surface layers from silicon wafers of solar cells is demonstrated. The target of the proposed reuse fabrication method is to replace the current approach, which uses strong acid and grinding and may damage the physical structure of silicon wafers and pollute to the environment. A precisely engineered clean production approach to removal of surface microstructure layers from silicon wafers is to develop a mass production system for recycling defective or discarded silicon wafers of solar cells that can reduce pollution and cost. The high revolution speed of the shift with the high rotation speed of the designed tool increases the discharge mobility and improves the removal effect associated with the high feed rate of the workpiece. High frequency and high power of ultrasonic with large electrolyte flow rate and high magnetic strengths with a small distance between the two magnets provide a large discharge effect and good removal; only a short period of time is required to remove the epoxy film and Si3N4 layer easily and cleanly.

  3. Photodegradation of 4-chlorophenoxyacetic acid under visible LED activated N-doped TiO2 and the mechanism of stepwise rate increment of the reused catalyst.

    Abdelhaleem, Amal; Chu, Wei


    Photodegradation of 4-chlorophenoxyacetic acid (4-CPA) was systematically investigated using N-doped TiO2 (N-TiO2) under commercially available visible light emitting diode (Vis LED) as a novel Vis LED illumination in photocatalysis applications. The synergetic effect of Vis LED/N-TiO2 process was studied in detail by varying reaction conditions including the initial concentration of 4-CPA, catalyst dosage, light intensity, and initial pH. Additionally, the influence of inorganic anions and radical scavengers on the performance of the Vis LED/N-TiO2 process was also evaluated. The Vis LED/N-TiO2 was found to be a promising process in terms of mineralization of 4-CPA. It is interesting to note that the performance of this process was not reduced after successive usage of the recycled catalyst; instead, the reaction rate of 4-CPA decay actually increased by using the spent catalyst. The mechanism behind rate enhancement after/during reuse was explored by XPS and FT-IR analyses and it was proven that hydroxyl groups can be incorporated into the catalyst surface by the repeated wetting of N-TiO2 after each reuse. This facilitates the formation of hydrogen bonds between the 4-CPA molecules and N-TiO2, thereby allowing more collisions between the trapped 4-CPA and radicals at the interface of bulk solution and catalyst, respectively. Copyright © 2017 Elsevier B.V. All rights reserved.

  4. Benchmarking survey for recycling.

    Marley, Margie Charlotte; Mizner, Jack Harry


    This report describes the methodology, analysis and conclusions of a comparison survey of recycling programs at ten Department of Energy sites including Sandia National Laboratories/New Mexico (SNL/NM). The goal of the survey was to compare SNL/NM's recycling performance with that of other federal facilities, and to identify activities and programs that could be implemented at SNL/NM to improve recycling performance.

  5. Recycling as moral behaviour

    Thøgersen, John

    of Reasoned Action (TRA) with regard to understanding recycling behaviour. Further, examples of misleading policy conclusions are discussed suggested that within the framework of cognitive psychology, Schwartz's model of altruistic behaviour offers a more satisfying starting point for understanding recycling......It is argued in this paper that in the affluent, industrial societies, environmental behaviours like recycling are typically classified within ""the domain of morality"" in people's minds. Intentions regarding these types of behaviours are not ba a thorough - conscious or unconscious - calculation...

  6. Efficient paper recycling

    Gregor-Svetec, Diana; Možina, Klemen; Blaznik, Barbara; Urbas, Raša; Vrabič Brodnjak, Urška; Golob, Gorazd


    Used paper and paper products are important raw material for paper and board industry. Paper recycling increases the material lifespan and is a key strategy that contributes to savings of primary raw material, reduction of energy and chemicals consumption, reduction of the impact on fresh water and improvement of waste management strategies. The paper recycling rate is still highly inhomogeneous among the countries of Central Europe. Since recovered paper is not only recycled in the country w...

  7. Copper on Chitosan: A Recyclable Heterogeneous Catalyst for Azide-alkyne Cycloaddition Reactions in Water

    Copper sulfate is immobilized over chitosan by simply stirring an aqueous suspension of chitosan in water with copper sulfate; the ensuing catalyst has been utilized for the azide-alkyne cycloaddition in aqueous media and it can be recycled and reused many time without loosing it...

  8. Reusing salad from salad bars – simulating the effects on product loss, microbial safety and product quality

    Tromp, S.O.; Rijgersberg, H.; Franz, E.


    The goal of this study is to model the effects of reusing salad from salad bars to reduce product loss, while keeping microbial safety and product quality at acceptable levels. We, therefore, expand our previously developed simulation model by incorporating reuse strategies and a quality decay model

  9. Recycling of electronic scrap

    Legarth, Jens Brøbech

    This Ph.D. thesis deals with the growingly important field of electronics recycling with special attention to the problem of printed circuit board recycling. A literature survey of contemporary electronics recycling and printed circuit board recycling is presented.Further, an analysis of the role...... in the metals producing industry is presented and tested on two printed circuit board scrap cases. The underlying idea for the method is that complex scrap should be introduced in the matrix of man-made material flows at recipient points where the scrap constitutes the least environmental problem and where...

  10. Recycling of Metals

    Damgaard, Anders; Christensen, Thomas Højlund


    appliances, vehicles and buildings, containing iron and aluminium metals, have long lifetimes before they end up in the waste stream. The recycling of production waste and postconsumer metals has a long history in the metal industry. Some metal smelters are today entirely based on scarp metals. This chapter...... describes briefly how iron and aluminium are produced and how scrap metal is recycled in the industry. Quality requirements and use of recycled products are discussed, as are the resource and environmental issues of metal recycling. Copper and other metals are also found in waste but in much smaller...

  11. Mixed plastics recycling technology

    Hegberg, Bruce


    Presents an overview of mixed plastics recycling technology. In addition, it characterizes mixed plastics wastes and describes collection methods, costs, and markets for reprocessed plastics products.

  12. Combustion Byproducts Recycling Consortium

    Paul Ziemkiewicz; Tamara Vandivort; Debra Pflughoeft-Hassett; Y. Paul Chugh; James Hower


    Ashlines: To promote and support the commercially viable and environmentally sound recycling of coal combustion byproducts for productive uses through scientific research, development, and field testing.


    Bossart, Steven J.; Blair, Danielle M.


    As nuclear research and production facilities across the U.S. Department of Energy (DOE) nuclear weapons complex are slated for deactivation and decommissioning (D&D), there is a need to decontaminate some facilities for reuse for another mission or continued use for the same mission. Improved technologies available in the commercial sector and tested by the DOE can help solve the DOE's decontamination problems. Decontamination technologies include mechanical methods, such as shaving, scabbling, and blasting; application of chemicals; biological methods; and electrochemical techniques. Materials to be decontaminated are primarily concrete or metal. Concrete materials include walls, floors, ceilings, bio-shields, and fuel pools. Metallic materials include structural steel, valves, pipes, gloveboxes, reactors, and other equipment. Porous materials such as concrete can be contaminated throughout their structure, although contamination in concrete normally resides in the top quarter-inch below the surface. Metals are normally only contaminated on the surface. Contamination includes a variety of alpha, beta, and gamma-emitting radionuclides and can sometimes include heavy metals and organic contamination regulated by the Resource Conservation and Recovery Act (RCRA). This paper describes several advanced mechanical, chemical, and other methods to decontaminate structures, equipment, and materials.

  14. 小中水规模研究%Research on the Dimensions of Small Recycled Water

    王晓燕; 程莹莹


    针对目前国内水资源现状和中水回用及推广现状和问题,参考日本和北京市关于小中水规模规定的先例,总结国内、外的中水处理回用的特点和利用现状,分析了大、小中水回用的优劣及适用范围.根据中水回用的特点提出中水回用技术的发展还要从小到大,从微观到宏观,综合考虑城市规模、经济状况、城市规划及规范制定等因素,以中水的广泛应用为目标促使小中水规模合理划分,大、小中水达到最优平衡,才能更好推广中水利用,进而减弱我国城市化发展中的水资源短缺因素的限制.%For the current situation of domestic water resources and the status and problems in reuse and promotion of recycled water, the paper refered to the precedent about the provision of small-scale recycled water at Japan and Beijing, summed up the characteristics and utilization status of recycled water reuse at home and abroad, analyzed the advantages and disadvantages of large and small recycled water reuse and application range.According to the characteristics of recycled water reuse, the paper proposed that the development of recycled water reuse should start from small to large,from micro to macro, consider the size of city, economic status, urban planning and norm-setting and other factors, take the extensive application of recycled water as the target to promote rational division of small-scale recycled water, achieve the optimal balance of the large and small recycled water,so that can promote the utilization of recycled water, and thus weaken the limits of water shortage in the development of urbanization.

  15. Demonstration of automated dyebath reuse in carpet manufacturing

    Clark, J.L.


    This report documents a project conducted under a program of National Industrial Competitiveness through Energy, Environment, and Economics (NICE{sup 3}). The program has the objective of developing and demonstrating industrial processes which simultaneously conserve energy and reduce environmental pollution in an economically attractive manner. This project addressed textile dyeing, specifically batch dyeing of nylon carpets with acid dyes, and focused on providing a technically and financially attractive solution which does not impose burdens on the user industry, such as requirements for additional labor or expertise at the production facility. The batch dyeing of carpet is an inherently wasteful process. After each dye cycle, all of the water, energy, and residual chemicals used to dye the carpets are dumped to the drain. Reuse of the spent dyebaths is a proven technique for reducing consumption of water, chemicals, and energy. However, implementation of reuse on a plant-wide or industry-wide scale is impeded by the human involvement required. This NICE{sup 3} project developed and demonstrated a process for automated dyebath reuse, including a prototype automated analysis system. This required development of a modified dye cycle, incorporating hot-start and hot-termination for two different dye systems, as well as integration of the analysis system with the existing process control and production scheduling systems in the plant. The prototype analysis system was installed on a production beck in a commercial dyehouse, and automated dyebath reuse was demonstrated on carpets of both nylon 6 and nylon 6,6 polymers in a variety of colors. The results of the trials show that the automated analysis system can successfully analyze concentrations of multiple dyes in spent dyebaths without operator assistance and that dyebaths can be reconstituted based on these analyses and reused without compromising the quality of the carpets produced. Economic benefits representing

  16. An empirical analysis of ontology reuse in BioPortal.

    Ochs, Christopher; Perl, Yehoshua; Geller, James; Arabandi, Sivaram; Tudorache, Tania; Musen, Mark A


    Biomedical ontologies often reuse content (i.e., classes and properties) from other ontologies. Content reuse enables a consistent representation of a domain and reusing content can save an ontology author significant time and effort. Prior studies have investigated the existence of reused terms among the ontologies in the NCBO BioPortal, but as of yet there has not been a study investigating how the ontologies in BioPortal utilize reused content in the modeling of their own content. In this study we investigate how 355 ontologies hosted in the NCBO BioPortal reuse content from other ontologies for the purposes of creating new ontology content. We identified 197 ontologies that reuse content. Among these ontologies, 108 utilize reused classes in the modeling of their own classes and 116 utilize reused properties in class restrictions. Current utilization of reuse and quality issues related to reuse are discussed. Copyright © 2017 Elsevier Inc. All rights reserved.


    Patricia Paviet-Hartmann; William Kerlin; Steven Bakhtiar


    The objectives of gaseous waste management for the recycling of nuclear used fuel is to reduce by best practical means (ALARA) and below regulatory limits, the quantity of activity discharged to the environment. The industrial PUREX process recovers the fissile material U(VI) and Pu(IV) to re-use them for the fabrication of new fuel elements e.g. recycling plutonium as a Mixed Oxide (MOX) fuel or recycling uranium for new enrichment for Pressurized Water Reactor (PWR). Meanwhile the separation of the waste (activation and fission product) is performed as a function of their pollution in order to store and avoid any potential danger and release towards the biosphere. Raffinate, that remains after the extraction step and which contains mostly all fission products and minor actinides is vitrified, the glass package being stored temporarily at the recycling plant site. Hulls and end pieces coming from PWR recycled fuel are compacted by means of a press leading to a volume reduced to 1/5th of initial volume. An organic waste treatment step will recycle the solvent, mainly tri-butyl phosphate (TBP) and some of its hydrolysis and radiolytic degradation products such as dibutyl phosphate (HDPB) and monobutyl phosphate (H2MBP). Although most scientific and technological development work focused on high level waste streams, a considerable effort is still under way in the area of intermediate and low level waste management. Current industrial practices for the treatment of gaseous effluents focusing essentially on Iodine-129 and Krypton-85 will be reviewed along with the development of novel technologies to extract, condition, and store these fission products. As an example, the current industrial practice is to discharge Kr-85, a radioactive gas, entirely to the atmosphere after dilution, but for the large recycling facilities envisioned in the near future, several techniques such as 1) cryogenic distillation and selective absorption in solvents, 2) adsorption on activated

  18. Nutrient and media recycling in heterotrophic microalgae cultures.

    Lowrey, Joshua; Armenta, Roberto E; Brooks, Marianne S


    In order for microalgae-based processes to reach commercial production for biofuels and high-value products such as omega-3 fatty acids, it is necessary that economic feasibility be demonstrated at the industrial scale. Therefore, process optimization is critical to ensure that the maximum yield can be achieved from the most efficient use of resources. This is particularly true for processes involving heterotrophic microalgae, which have not been studied as extensively as phototrophic microalgae. An area that has received significant conceptual praise, but little experimental validation, is that of nutrient recycling, where the waste materials from prior cultures and post-lipid extraction are reused for secondary fermentations. While the concept is very simple and could result in significant economic and environmental benefits, there are some underlying challenges that must be overcome before adoption of nutrient recycling is viable at commercial scale. Even more, adapting nutrient recycling for optimized heterotrophic cultures presents some added challenges that must be identified and addressed that have been largely unexplored to date. These challenges center on carbon and nitrogen recycling and the implications of using waste materials in conjunction with virgin nutrients for secondary cultures. The aim of this review is to provide a foundation for further understanding of nutrient recycling for microalgae cultivation. As such, we outline the current state of technology and practical challenges associated with nutrient recycling for heterotrophic microalgae on an industrial scale and give recommendations for future work.

  19. Evolution of water recycling in Australian cities since 2003.

    Radcliffe, J C


    The prolonged Australian drought which commenced in 2002, and the agreement between Australia's Commonwealth and States/Territories governments to progress water reform through the National Water Initiative, has resulted in many new recycling projects in Australia's capital cities. Dual reticulation systems are being advanced in new subdivision developments in Sydney, Melbourne and Adelaide. Brisbane has installed three large Advanced Water Treatment Plants that are designed to send indirect potable recycled water to the Wivenhoe Dam which is Brisbane's principal water reservoir. Numerous water recycling projects are serving industry and agriculture. Experimental managed aquifer recharge is being undertaken with wetland-treated stormwater in Adelaide and reverse osmosis treated wastewater in Perth. New National Water Quality Management Strategy recycled water guidelines have been developed for managing environmental risks, for augmentation of drinking water supplies, for managed aquifer recharge and for stormwater harvesting and reuse. Many recent investments are part-supported through Commonwealth government grants. Desalination plants are being established in Melbourne and Adelaide and a second one in Perth in addition to the newly-operational plants in Perth, South-East Queensland and Sydney. Despite there being numerous examples of unplanned indirect potable recycling, most governments remain reluctant about moving towards planned potable recycling. There is evidence of some policy bans still being maintained by governments but the National Water Commission continues to reinforce the necessity of an even-handed objective consideration of all water supply options.

  20. Closed loop recycling of lead/acid batteries

    Bied-Charreton, B.

    The traditional lead/acid battery is a recycleable product, irrespective whether it is of an automotive, traction or standby design. The product benefits from the traditional lead metallurgy that has been developed for both primary (mines) and secondary (recycling) smelting. Secondary smelting accounts for 60% of total lead production in Europe, and this market lead the most effectively metal. In secondary smelters, scrapped batteries are crushed and smelted. The polypropylene from the boxes is recycled to produce secondary plastic for battery, automotive, or other miscellaneous uses. The lead metal is refined to be re-used in the battery industry. The acid is retreated. Recycling requires a collection network. The lead/acid battery benefits from the traditional collection network that has been established for scrap-iron and non-ferrous metal scrap. In Western Europe, the recycling rate for scrapped batteries is estimated to be 80 to 90%. All participants in the battery recycling loop agree that the process must be a clean cycle for it to be credible. The collection organization is improving the quality of storage and transportation, especially with regard to the acid that can only be neutralized in correctly-controlled facilities, generally located at the smelters. The smelters themselves tend, through local regulations, to run at the optimum level of protection of the environment.

  1. Drivers for and against municipal wastewater recycling: a review.

    Kunz, Nadja C; Fischer, Manuel; Ingold, Karin; Hering, Janet G


    The reclamation, treatment and reuse of municipal wastewater can provide important environmental benefits. In this paper, 25 studies on this topic were reviewed and it was found that there are many (>150) different drivers acting for and against wastewater recycling. To deal with the challenge of comparing studies which entailed different research designs, a framework was developed which allowed the literature to be organized into comparable study contexts. Studies were categorized according to the level of analysis (wastewater recycling scheme, city, water utility, state, country, global) and outcome investigated (development/investment in new schemes, program implementation, percentage of wastewater recycled, percentage of water demand covered by recycled water, multiple outcomes). Findings across comparable case studies were then grouped according to the type (for or against recycling) and category of driver (social, natural, technical, economic, policy or business). The utility of the framework is demonstrated by summarizing the findings from four Australian studies at the city level. The framework offers a unique approach for disentangling the broad range of potential drivers for and against water recycling and to focus on those that seem relevant in specific study contexts. It may offer a valuable starting point for building hypotheses in future work.

  2. Reuse of Aluminum Dross as an Engineered Product

    Dai, Chen; Apelian, Diran

    To prevent the leaching of landfilled aluminum dross waste and save the energy consumed by recovering metallic aluminum from dross, aluminum dross is reused as an engineering product directly rather than "refurbished" ineffectively. The concept is to reduce waste and to reuse. Two kinds of aluminum dross from industrial streams were selected and characterized. We have shown that dross can be applied directly, or accompanied with a simple conditioning process, to manufacture refractory components. Dross particles below 50 mesh are most effective. Mechanical property evaluations revealed the possibility for dross waste to be utilized as filler in concrete, resulting in up to 40% higher flexural strength and 10% higher compressive strength compared to pure cement, as well as cement with sand additions. The potential usage of aluminum dross as a raw material for such engineering applications is presented and discussed.

  3. Recycling Wood Composite Panels: Characterizing Recycled Materials

    Hui Wan


    Full Text Available Downgraded medium density fiberboard (MDF, particleboard (PB, and oriented strandboard (OSB panels were individually subjected to steam explosion treatment. Downgraded MDF and PB panels were separately treated with thermal chemical impregnation using 0.5% butanetetracarboxylic acid (BTCA. And downgraded PB panels were processed with mechanical hammermilling. The pH, buffer capacity, fiber length, and particle size of these recycled materials were evaluated. After the steam explosion and thermal chemical impregnation treatments, the pH and buffer capacity of recycled urea formaldehyde resin (UF-bonded MDF and PB furnishes increased and the fiber length decreased. The hammermilling of recycled PB was less likely to break particles down into sizes less than 1 mm2.



    Software reuse refers to the development of software using. Software ... software development time and overall cost. Retrieval of ... Nigerian Journal of Technology (NIJOTECH). Vol. 34 No. ..... SourceForge, a popular web-based source code.

  5. Plate tectonics: Crustal recycling evolution

    Magni, Valentina


    The processes that form and recycle continental crust have changed through time. Numerical models reveal an evolution from extensive recycling on early Earth as the lower crust peeled away, to limited recycling via slab break-off today.

  6. Strengthening education in human values - The Link between Recycling and Climate Change

    Kastanidou, Sofia


    This work is an environmental education program of 50 hours- off curriculum, currently run by High school of Nikaia - Larissas. I as coordinator teacher, another two teachers and 24 students participate in this program. Intended learning outcomes: students will be able to define the importance of climate change, to evaluate the effect of human activities on climate, and to recognize the role of recycling in preventing global climate change. It is an environmental program with social goals. That means students have to understand the link between human and environment and learn how to combine environmental protection with human help. As a consequence collaboration has already begun between High school of Nikaia and the Paraplegic & Physically Disabled Association of Pella-Greece. This is a nonprofit association that collects plastic caps; with the contribution of a recycling company the Paraplegic Association converts plastic caps in wheelchairs and gives them to needy families. So, recycling caps becomes a meaningful form of environmental and social activism. Students are educated about the meaning of recycling and encouraged to collect all types of plastic caps; they are also educated in the meaning of helping people. Further, this environmental education program consists of two parts, a theoretical and a practical one: a) Theoretical part: education is an essential element of the global response to climate change, so students have to research on climate change; they visit the Center for Environmental Education in Florina and experience the aquatic ecosystem of Prespa lakes; specialists of the Centre inform students about the effects of climate change on wetlands; students have further to research how recycling can help fight global climate change as well as examine how recycling a key component of modern waste reduction is, as the third component of the "Reduce, Reuse, Recycle" waste hierarchy; they discover the interdependence of society, economy and the natural

  7. 'Rome was not built in a day'. Legal Sources and Reuse in roman times (I century BC - VI century AD

    Yuri A. Marano


    Full Text Available The number and complexities of the legal texts from the Roman world far surpass anything we have from other ancient societies, and this huge body of evidence allows chance to investigate how Roman jurists wished to regulate public and private construction activity. In particular, this paper aims at exploring how Roman authorities coped with salvage and reuse of buildings materials, focussing on the economic and organizational aspects of this practice. Proceeding chronologically and exploiting legal texts, literary and epigraphic sources and archaeology as complementary evidence, it will demonstrate how recycling has been an important feature of Roman building industry through the Republican and Imperial periods as a source of cheap building materials and a solution to problems related to the recycling and disposal of urban waste. At the same time, reuse will be considered as a crucial aspect of the general Imperial policy of exercising control over civic finances and patrimony.

  8. Photo-catalytic reactors for in-building grey water reuse. Comparison with biological processes and market potential

    Jefferson, B.; Murray, C.; Diaper, C.; Parsons, S.A.; Jeffrey, P. [School of Water Sciences, Cranfield Univ., Cranfield, Bedfordshire (United Kingdom); Bedel, C. [Dept. of Industrial Process, National Inst. of Applied Sciences (France); Centeno, C. [Dept. of the Faculty of Engineering, Univ. of Santo Tomas, Manila (Philippines)


    Photo catalytic reactors potentially have a market in the reuse of grey water as they do not suffer from problems associated with toxic shocks and can be compact. The process is dependant upon the ratio of TOC to TiO{sub 2} concentration such that a greater proportion of the feed is degraded when either are increased. Economic assessment of grey water recycling showed both scale of operation and regional location to be the two most important factors in deciding the financial acceptability of any reuse technology. Overall the assessment suggested that photo catalytic oxidation (PCO) technology was suitable for grey water recycling and that the technology should be marketed at large buildings such as residential accommodation and offices. (orig.)

  9. Improving Energy Efficiency and Enabling Water Recycle in Biorefineries Using Bioelectrochemical Cells.

    Borole, Abhijeet P [ORNL


    Improving biofuel yield and water reuse are two important issues in further development of biorefineries. The total energy content of liquid fuels (including ethanol and hydrocarbon) produced from cellulosic biomass via biochemical or hybrid bio-thermochemical routes can vary from 49% to 70% of the biomass entering the biorefinery, on an energy basis. Use of boiler for combustion of residual organics and lignin results in significant energy and water losses. An alternate process to improve energy recovery from the residual organic streams is via use of bioelectrochemical systems such as microbial fuel cells (MFCs) microbial electrolysis cells (MECs). The potential advantages of this alternative scheme in a biorefinery include minimization of heat loss and generation of a higher value product, hydrogen. The need for 5-15 gallons of water per gallon of ethanol can be reduced significantly via recycle of water after MEC treatment. Removal of inhibitory byproducts such as furans, phenolics and acetate in MFC/MECs to generate energy, thus, has dual advantages including improvements in energy efficiency and ability to recycle water. Conversion of the sugar- and lignin- degradation products to hydrogen is synergistic with biorefinery hydrogen requirements for upgrading F-T liquids and other byproducts to high-octane fuels and/or high value products. Some of these products include sorbitol, succinic acid, furan and levulinate derivatives, glycols, polyols, 1,4-butenadiol, phenolics polymers, etc. Potential process alternatives utilizing MECs in biorefineries capable of improving energy efficiency by up to 30% are discussed.

  10. Sustainable design for automotive products: dismantling and recycling of end-of-life vehicles.

    Tian, Jin; Chen, Ming


    The growth in automotive production has increased the number of end-of-life vehicles (ELVs) annually. The traditional approach ELV processing involves dismantling, shredding, and landfill disposal. The "3R" (i.e., reduce, reuse, and recycle) principle has been increasingly employed in processing ELVs, particularly ELV parts, to promote sustainable development. The first step in processing ELVs is dismantling. However, certain parts of the vehicle are difficult to disassemble and use in practice. The extended producer responsibility policy requires carmakers to contribute in the processing of scrap cars either for their own developmental needs or for social responsibility. The design for dismantling approach can be an effective solution to the existing difficulties in dismantling ELVs. This approach can also provide guidelines in the design of automotive products. This paper illustrates the difficulty of handling polymers in dashboards. The physical properties of polymers prevent easy separation and recycling by using mechanical methods. Thus, dealers have to rely on chemical methods such as pyrolysis. Therefore, car designers should use a single material to benefit dealers. The use of materials for effective end-of-life processing without sacrificing the original performance requirements of the vehicle should be explored. Copyright © 2013 Elsevier Ltd. All rights reserved.

  11. Minimizing Waste from the Oil Industry: Scale Treatment and Scrap Recycling

    Lindberg, M.


    Naturally occurring radioactive material is technologically concentrated in the piping in systems in the oil and gas industry, especially in the offshore facilities. The activity, mainly Ra-226, in the scales in the systems are often at levels classified as low level radioactive waste (LSA) in the industry. When the components and pipes are descaled for maintenance or recycling purposes, usually by high-pressure water jetting, the LSA scales arising constitute a significant quantity of radioactive waste for disposal. A new process is under development for the treatment of scales, where the radioactive solids are separated from the inactive. This would result in a much smaller fraction to be deposited as radioactive waste. The radioactive part recovered from the scales will be reduced to a stable non-metallic salt and because the volume is significantly smaller then the original material, will minimize the cost for disposal. The pipes, that have been cleaned by high pressure water jetting can either be reused or free released by scrapping and melting for recycling.

  12. Cellulase recycling after high-solids simultaneous saccharification and fermentation of combined pretreated corncob

    Ruoyu eDu


    Full Text Available Despite the advantageous prospect of second-generation bioethanol, its final commercialization must overcome the primary cost impediment due to enzyme assumption. To solve this problem, this work achieves high-concentration ethanol fermentation and multi-round cellulase recycling through process integration. The optimal time and temperature of the re-adsorption process were determined by monitoring the adsorption kinetics of cellulases. Both glucose and cellobiose inhibited cellulase adsorption. After 96 h of ethanol fermentation, 40% of the initial cellulase remained in the broth, from which 62.5% of the cellulase can be recycled and reused in fresh substrate re-adsorption for 90 min. Under optimum conditions, i.e., pH 5.0, dry matter loading of 15 wt%, cellulase loading of 45 FPU/g glucan, two cycles of fermentation and re-adsorption can yield two-fold increased ethanol outputs and reduce enzyme costs by over 50%. The ethanol concentration in each cycle can be achieved at levels greater than 40 g/L.

  13. Comparing urban solid waste recycling from the viewpoint of urban metabolism based on physical input-output model: A case of Suzhou in China.

    Liang, Sai; Zhang, Tianzhu


    Investigating impacts of urban solid waste recycling on urban metabolism contributes to sustainable urban solid waste management and urban sustainability. Using a physical input-output model and scenario analysis, urban metabolism of Suzhou in 2015 is predicted and impacts of four categories of solid waste recycling on urban metabolism are illustrated: scrap tire recycling, food waste recycling, fly ash recycling and sludge recycling. Sludge recycling has positive effects on reducing all material flows. Thus, sludge recycling for biogas is regarded as an accepted method. Moreover, technical levels of scrap tire recycling and food waste recycling should be improved to produce positive effects on reducing more material flows. Fly ash recycling for cement production has negative effects on reducing all material flows except solid wastes. Thus, other fly ash utilization methods should be exploited. In addition, the utilization and treatment of secondary wastes from food waste recycling and sludge recycling should be concerned.

  14. The study on recycle scheme of the metallic radioactive wastes (II)

    Shin, J. I.; Park, J. H.; Jung, K. J. [and others


    It was understood that regulation criteria for material release varied with countries and that international standards were not setup. But, most advanced countries are continuously studying on the recycling of metallic wastes for the purpose of the reuse of resources and disposal cost reduction. Practically, the advanced countries make a lot of cost profits compared with disposal as their metallic wastes are recycled and reused through technology like melting. The reasonable international standards are also expected to be set in the near future because of the aggressive cooperation between international agencies such as IAEA and NEA toward recycling these wastes. In our case, the recycle criteria for radioactive waste containing radioactive nuclide with long half-life such as Cs-137(half-life: 30y) and Co-60(half-life: 5.26y) including others, which are generated from the nuclear fission or dismantling of nuclear facilities, are not yet established. Therefore, it is required that the recommendation and legalization of the regulatory criteria be carried out for the recycle and reuse of metallic wastes to be generated from the dismantling of domestic nuclear facilities in the future.

  15. The analysis on the current status of the overseas recycle technology of the metallic radioactive wastes

    Shin, Jae In; Kim, Hee Reyoung; Jung, Kee Jung


    It was understood that regulation criteria for material release varied with countries and that international standards were not setup. But, most advanced countries are continuously studying on the recycling of metallic wastes for the purpose of the reuse of resources and disposal cost reduction. Practically, the advanced countries make a lot of cost profits compared with disposal as their metallic wastes are recycled and reused through technology like melting. The reasonable international standards are also expected to be set in the near future because of the aggressive cooperation between international agencies such as IAEA and NEA toward recycling these wastes. In our case, the recycle criteria for radioactive waste containing radioactive nuclide with long half-life such as Cs-137(half-life: 30y) and Co-60(half-life: 5.26y) including others, which are generated from the nuclear fission or dismantling of nuclear facilities, are not yet established. Therefore, it is required that the recommendation and legalization of the regulatory criteria be carried out for the recycle and reuse of metallic wastes to be generated from the dismantling of domestic nuclear facilities in the future.

  16. The Fermilab recycler ring

    Martin Hu


    The Fermilab Recycler is a permanent magnet storage ring for the accumulation of antiprotons from the Antiproton Source, and the recovery and cooling of the antiprotons remaining at the end of a Tevatron store. It is an integral part of the Fermilab III luminosity upgrade. The following paper describes the design features, operational and commissioning status of the Recycler Ring.

  17. Water reuse: potential for expanding the nation's water supply through reuse of municipal wastewater

    Committee on the Assessment of Water Reuse as an Approach to Meeting Future Water Supply Needs; National Research Council

    "Expanding water reuse--the use of treated wastewater for beneficial purposes including irrigation, industrial uses, and drinking water augmentation--could significantly increase the nation's total...

  18. Osmotic versus conventional membrane bioreactors integrated with reverse osmosis for water reuse: Biological stability, membrane fouling, and contaminant removal.

    Luo, Wenhai; Phan, Hop V; Xie, Ming; Hai, Faisal I; Price, William E; Elimelech, Menachem; Nghiem, Long D


    This study systematically compares the performance of osmotic membrane bioreactor - reverse osmosis (OMBR-RO) and conventional membrane bioreactor - reverse osmosis (MBR-RO) for advanced wastewater treatment and water reuse. Both systems achieved effective removal of bulk organic matter and nutrients, and almost complete removal of all 31 trace organic contaminants investigated. They both could produce high quality water suitable for recycling applications. During OMBR-RO operation, salinity build-up in the bioreactor reduced the water flux and negatively impacted the system biological treatment by altering biomass characteristics and microbial community structure. In addition, the elevated salinity also increased soluble microbial products and extracellular polymeric substances in the mixed liquor, which induced fouling of the forward osmosis (FO) membrane. Nevertheless, microbial analysis indicated that salinity stress resulted in the development of halotolerant bacteria, consequently sustaining biodegradation in the OMBR system. By contrast, biological performance was relatively stable throughout conventional MBR-RO operation. Compared to conventional MBR-RO, the FO process effectively prevented foulants from permeating into the draw solution, thereby significantly reducing fouling of the downstream RO membrane in OMBR-RO operation. Accumulation of organic matter, including humic- and protein-like substances, as well as inorganic salts in the MBR effluent resulted in severe RO membrane fouling in conventional MBR-RO operation. Crown Copyright © 2016. Published by Elsevier Ltd. All rights reserved.

  19. Recycling of electronic scrap

    Legarth, Jens Brøbech

    This Ph.D. thesis deals with the growingly important field of electronics recycling with special attention to the problem of printed circuit board recycling. A literature survey of contemporary electronics recycling and printed circuit board recycling is presented.Further, an analysis of the role...... in the metals producing industry is presented and tested on two printed circuit board scrap cases. The underlying idea for the method is that complex scrap should be introduced in the matrix of man-made material flows at recipient points where the scrap constitutes the least environmental problem and where...... resource recovery is largest. It is clearly shown with the two printed circuit board scrap cases that the currently used copper recycling scenario is environmentally inferior to the tin and lead primary production scenarios. The method is a novelty, since no-one has previously put forward a method...

  20. Evaluation of potential for reuse of industrial wastewater using metal-immobilized catalysts and reverse osmosis.

    Choi, Jeongyun; Chung, Jinwook


    This report describes a novel technology of reusing the wastewater discharged from the display manufacturing industry through an advanced oxidation process (AOP) with a metal-immobilized catalyst and reverse osmosis (RO) in the pilot scale. The reclaimed water generated from the etching and cleaning processes in display manufacturing facilities was low-strength organic wastewater and was required to be recycled to secure a water source. For the reuse of reclaimed water to ultrapure water (UPW), a combination of solid-phase AOP and RO was implemented. The removal efficiency of TOC by solid-phase AOP and RO was 92%. Specifically, the optimal acid, pH, and H2O2 concentrations in the solid-phase AOP were determined. With regard to water quality and operating costs, the combination of solid-phase AOP and RO was superior to activated carbon/RO and ultraviolet AOP/anion polisher/coal carbon.

  1. Health Effects Associated with Wastewater Treatment, Reuse, and Disposal.

    Qu, Xiaoyan; Zhao, Yuanyuan; Yu, Ruoren; Li, Yuan; Falzone, Charles; Smith, Gregory; Ikehata, Keisuke


    A review of the literature published in 2015 on topics relating to public and environmental health risks associated with wastewater treatment, reuse, and disposal is presented. This review is divided into the following sections: wastewater management, microbial hazards, chemical hazards, wastewater treatment, wastewater reuse, agricultural reuse in different regions, greywater reuse, wastewater disposal, hospital wastewater, industrial wastewater, and sludge and biosolids.

  2. 48 CFR 252.239-7008 - Reuse arrangements.


    ... 48 Federal Acquisition Regulations System 3 2010-10-01 2010-10-01 false Reuse arrangements. 252... Provisions And Clauses 252.239-7008 Reuse arrangements. As prescribed in 239.7411(a), use the following clause: Reuse Arrangements (DEC 1991) (a) When feasible, the Contractor shall reuse canceled...

  3. Developing software for and with reuse: an ontological approach

    Falbo, R.A.; Guizzardi, G.; Duarte, K.C.; Natali, A.C.C.


    Software reuse has been pointed as one of the most promising technique to deal with quality and productivity problems. To support reuse, software processes have to consider two facets: developing for reuse and developing with reuse. In this paper we present an ontology-based approach for software re

  4. Drivers and economic aspects for the implementation of advanced wastewater treatment and water reuse in a PVC plant

    David Prieto


    The proposed solution is profitable for sites where fresh demineralized water production costs are currently higher than 1.5 €/m3 and the required flow of the recycled water exceeds 50 m3/h. The water reuse concept allows decoupling the production from fresh water use. In this case, anticipating that a drought would lead to a 3% reduction of the production, the amortization period would be lowered to one year.

  5. Plastics recycling: challenges and opportunities

    Jefferson Hopewell; Robert Dvorak; Edward Kosior


    .... Advances in technologies and systems for the collection, sorting and reprocessing of recyclable plastics are creating new opportunities for recycling, and with the combined actions of the public...

  6. A design methodology to reduce waste in the construction process

    AndrewN.BALDWIN; SimonA.AUSTIN; AndrewKEYS


    This paper describes a conceptual tool to enable construction professional to identify where waste is generated during the construction of buildings and address how it can be reduced. It allows an improvement in the waste management practices on site by forecasting future waste types and volumes. It will reduce waste volumes on site through identification of wasteful design practices. The tool contributes to all stages of design and construction. At the Concept Stage of Design the proposed methodology provides a framework for reducing waste through better informed decisions. At the Detailed Design Stage it gives a methodology to address the areas of concern and provide focused information to aid the reduction of waste through informed design decisions. During construction it provides a tool to predict waste types arising on site thus allowing a system of proaclive waste management that will aid skip segregation strategies leading to improved waste recycling and waste reuse.

  7. Analysis of the Reuse of Uranium Recovered from the Reprocessing of Commercial LWR Spent Fuel

    DelCul, Guillermo Daniel [ORNL; Trowbridge, Lee D [ORNL; Renier, John-Paul [ORNL; Ellis, Ronald James [ORNL; Williams, Kent Alan [ORNL; Spencer, Barry B [ORNL; Collins, Emory D [ORNL


    This report provides an analysis of the factors involved in the reuse of uranium recovered from commercial light-water-reactor (LWR) spent fuels (1) by reenrichment and recycling as fuel to LWRs and/or (2) by recycling directly as fuel to heavy-water-reactors (HWRs), such as the CANDU (registered trade name for the Canadian Deuterium Uranium Reactor). Reuse is an attractive alternative to the current Advanced Fuel Cycle Initiative (AFCI) Global Nuclear Energy Partnership (GNEP) baseline plan, which stores the reprocessed uranium (RU) for an uncertain future or attempts to dispose of it as 'greater-than-Class C' waste. Considering that the open fuel cycle currently deployed in the United States already creates a huge excess quantity of depleted uranium, the closed fuel cycle should enable the recycle of the major components of spent fuel, such as the uranium and the hazardous, long-lived transuranic (TRU) actinides, as well as the managed disposal of fission product wastes. Compared with the GNEP baseline scenario, the reuse of RU in the uranium fuel cycle has a number of potential advantages: (1) avoidance of purchase costs of 11-20% of the natural uranium feed; (2) avoidance of disposal costs for a large majority of the volume of spent fuel that is reprocessed; (3) avoidance of disposal costs for a portion of the depleted uranium from the enrichment step; (4) depending on the {sup 235}U assay of the RU, possible avoidance of separative work costs; and (5) a significant increase in the production of {sup 238}Pu due to the presence of {sup 236}U, which benefits somewhat the transmutation value of the plutonium and also provides some proliferation resistance.

  8. New hybrid frequency reuse method for packet loss minimization in LTE network.

    Ali, Nora A; El-Dakroury, Mohamed A; El-Soudani, Magdi; ElSayed, Hany M; Daoud, Ramez M; Amer, Hassanein H


    This paper investigates the problem of inter-cell interference (ICI) in Long Term Evolution (LTE) mobile systems, which is one of the main problems that causes loss of packets between the base station and the mobile station. Recently, different frequency reuse methods, such as soft and fractional frequency reuse, have been introduced in order to mitigate this type of interference. In this paper, minimizing the packet loss between the base station and the mobile station is the main concern. Soft Frequency Reuse (SFR), which is the most popular frequency reuse method, is examined and the amount of packet loss is measured. In order to reduce packet loss, a new hybrid frequency reuse method is implemented. In this method, each cell occupies the same bandwidth of the SFR, but the total system bandwidth is greater than in SFR. This will provide the new method with a lot of new sub-carriers from the neighboring cells to reduce the ICI which represents a big problem in many applications and causes a lot of packets loss. It is found that the new hybrid frequency reuse method has noticeable improvement in the amount of packet loss compared to SFR method in the different frequency bands. Traffic congestion management in Intelligent Transportation system (ITS) is one of the important applications that is affected by the packet loss due to the large amount of traffic that is exchanged between the base station and the mobile node. Therefore, it is used as a studied application for the proposed frequency reuse method and the improvement in the amount of packet loss reached 49.4% in some frequency bands using the new hybrid frequency reuse method.

  9. 9 CFR 317.10 - Reuse of official inspection marks; reuse of containers bearing official marks, labels, etc.


    ... 9 Animals and Animal Products 2 2010-01-01 2010-01-01 false Reuse of official inspection marks; reuse of containers bearing official marks, labels, etc. 317.10 Section 317.10 Animals and Animal... DEVICES, AND CONTAINERS General § 317.10 Reuse of official inspection marks; reuse of containers...

  10. Recycler Reaction for the Government Behavior in Closed-Loop Supply Chain Distribution Network: Based on the System Dynamics

    Xi gang Yuan


    Full Text Available With system dynamics, we establish three-closed-loop supply chain distribution network system model which consists of supplier, manufacturer, two retailers, and products (parts recycler. We proposed that recycler make reflect for the government policy by adjusting the recycling ratio and recycling delay. We use vensim software to simulate this model and investigate how the products (parts recyclers behavior influences the loop supply chain distribution system. The result shows that (1 when recyclers respond positively to government policies, recycling will increase the proportion of recyclers. When recyclers respond negatively to government policy making, recycling will reduce the proportion of recyclers. (2 When the recovery percentage of recyclers improves, manufacturers, Retailer 1, and Retailer 2 quantity fluctuations will reduce and the bullwhip effect will diminish. (3 When the proportion of recycled parts recyclers is lowered, manufacturers, Retailer 1, and Retailer 2 inventory fluctuation will increase and the bullwhip effect will be enhanced. (4 When recyclers recycling product delays increased, volatility manufacturers order quantity will rise, but there is little change in the amount of fluctuation of orders of the two retailers. (5 When recycling parts recyclers delay increases, fluctuations in the supplier order quantity will rise, but there is little change in the amount of fluctuation of orders of the two retailers.

  11. Briquetting of self-reducing blendings of waste iron oxides mixture

    Derungs, P.; Brouhon, J.M.; Harp, G. [ProfilARBED, Esch-sur-Alzette (Luxembourg)


    Protection of the environment increasingly requires the reuse of by-products from the steel industry. The objectives of the project were to develop technologies to manufacture self-reducing briquettes out of waste iron oxides and to recycle them in an electric arc furnace or a cupola furnace. CRM has investigated and determinated the optimal characteristics (binder, size, grain size, compositions and activator for the reduction reaction) for briquettes containing mixtures of mill scales, mill sludges, electric arc furnace (EAF) dust and coal as reduction agent. The goal to obtain briquettes, in which iron oxides are totally reduced when these briquettes are loaded with the scrap into an electric are furnace, was achieved. Trials at ProfilARBED have shown that it is possible to recycle mill and EAF by-products conditioned in self-reducing briquettes in an electric arc furnace without influence on the performance and on the environment. The iron content of the slag does not increase as the iron of the by-products is almost completely reduced. Zinc is completely removed and the concentration in the EAF dust increases. BFI has investigated the best recycling method for sludge and dust of the blast furnace (BF) and basic oxygen furnace (BOF), by laboratory testing and industrial trials in a cupola furnace. Self-reducing briquettes have been produced and reduced. The best conditions to achieve the required briquetting strength have been determinated. 29 refs., 74 figs., 38 tabs.

  12. Recycling of Plastic

    Christensen, Thomas Højlund; Fruergaard, Thilde


    Plastic is produced from fossil oil. Plastic is used for many different products. Some plastic products like, for example, wrapping foil, bags and disposable containers for food and beverage have very short lifetimes and thus constitute a major fraction of most waste. Other plastic products like......, good strength and long durability. Recycling of plastic waste from production is well-established, while recycling of postconsumer plastic waste still is in its infancy. This chapter describes briefly how plastic is produced and how waste plastic is recycled in the industry. Quality requirements...

  13. Experience-based training of students on concretes reinforced by recycled carbon fibers

    Cosgun, Cumhur; Patlolla, Vamsidhar R.; Alzahrani, Naif; Zeineddine, Hatim F.; Asmatulu, Eylem


    Fiber reinforcement increases many properties of the concretes, such as toughness, strength, abrasion, and resistance to corrosion. Use of recycled carbon fibers from industrial waste offers many advantages because it will reduce the waste, contribute the economy, protect natural resources and improve the property of structural units. The City of Wichita, KS is known to be "Air Capital of the World" where many aircraft companies have been producing aircraft, parts and components. Due to the superior properties of composites (e.g., light weight, low density, high impact resistance), they have been highly used by aircraft industry. Prepreg is the most preferred combination of the fiber and resin due to the easy application, but it has a limited shelf life (e.g., three months to one year at most) and scrap has no use after all in the same industry. Every year tons of un-used prepreg or after use scrap are being collected in Wichita, KS. Recycling prepreg from the post-consumer waste offers great advantages of waste reduction and resource conservation in the city. Reusing the carbon fibers obtained from outdated prepreg composites for concrete reinforcement will offer double advantages for our environment and concrete structures. In this study, recycled carbon fibers of the outdated prepreg composites were collected, and then incorporated with concretes at different ratios prior to the molding and mechanical testing. An undergraduate student was involved in the project and observed all the process during the laboratory studies, as well as data collection, analysis and presentation. We believe that experience based learning will enhance the students' skills and interest into the scientific and engineering studies.

  14. TiO 2光催化处理炼化污水回用反渗透浓水的研究%Study on Treatment in the Concentrated Water from Wastewater Recycling RO Unite by TiO2 Photo-catalysis*TiO2 photocatalysis treatment of petrochemical wastewater reuse reverse osmosis concentrated water

    赵朝成; 焦叙来; 崔爱玲; 刘春爽


    Using suspended TiO 2 , photo-catalysis of concentrated water from wastewater recycling reverse osmosis units was studied under ultraviolet.The different variables affecting the removal efficiency such as reaction time , TiO2 quantity, pH value, UV irradiation intensity, H2O2 quantity and aeration quantity were investigated.The result showed that the removal rates of COD and chromaticity were 93.63% and 98.15%, respectively , under the following optimum conditions of reaction time of 2 h, TiO2 quantity of 0.6 g/L, pH value of 4, irradiation of high-pressure mercury-lamp of 500 W, H2 O2 quantity of 0.8 ml/L and aeration quantity of 0.75 L/min.%以悬浮态TiO2为催化剂,在紫外光下对炼化污水回用装置反渗透浓水进行光催化处理,采用单因素实验,考察了反应时间、 pH值、光照强度、 TiO2投加量、 H2 O2投加量、曝气量对处理效果的影响。结果表明:在反应时间为2 h, pH为4,500 W高压汞灯, TiO2投加量为0.6 g/L, H2 O2投加量为0.8 ml/L,曝气量为0.75 L/min的条件下,反渗透浓水COD的去除率可达93.63%,脱色率可达98.15%。

  15. Response to waste electrical and electronic equipments in China: legislation, recycling system, and advanced integrated process.

    Zhou, Lei; Xu, Zhenming


    Over the past 30 years, China has been suffering from negative environmental impacts from distempered waste electrical and electronic equipments (WEEE) recycling activities. For the purpose of environmental protection and resource reusing, China made a great effort to improve WEEE recycling. This article reviews progresses of three major fields in the development of China's WEEE recycling industry: legal system, formal recycling system, and advanced integrated process. Related laws concerning electronic waste (e-waste) management and renewable resource recycling are analyzed from aspects of improvements and loopholes. The outcomes and challenges for existing formal recycling systems are also discussed. The advantage and deficiency related to advanced integrated recycling processes for typical e-wastes are evaluated respectively. Finally, in order to achieve high disposal rates of WEEE, high-quantify separation of different materials in WEEE and high added value final products produced by separated materials from WEEE, an idea of integrated WEEE recycling system is proposed to point future development of WEEE recycling industry.

  16. Forward osmosis niches in seawater desalination and wastewater reuse

    Valladares Linares, Rodrigo


    This review focuses on the present status of forward osmosis (FO) niches in two main areas: seawater desalination and wastewater reuse. Specific applications for desalination and impaired-quality water treatment and reuse are described, as well as the benefits, advantages, challenges, costs and knowledge gaps on FO hybrid systems are discussed. FO can play a role as a bridge to integrate upstream and downstream water treatment processes, to reduce the energy consumption of the entire desalination or water recovery and reuse processes, thus achieving a sustainable solution for the water-energy nexus. FO hybrid membrane systems showed to have advantages over traditional membrane process like high pressure reverse osmosis and nanofiltration for desalination and wastewater treatment: (i) chemical storage and feed water systems may be reduced for capital, operational and maintenance cost, (ii) water quality is improved, (iii) reduced process piping costs, (iv) more flexible treatment units, and (v) higher overall sustainability of the desalination and wastewater treatment process. Nevertheless, major challenges make FO systems not yet a commercially viable technology, the most critical being the development of a high flux membrane, capable of maintaining an elevated salt rejection and a reduced internal concentration polarization effect, and the availability of appropriate draw solutions (cost effective and non-toxic), which can be recirculated via an efficient recovery process. This review article highlights the features of hybrid FO systems and specifically provides the state-of-the-art applications in the water industry in a novel classification and based on the latest developments toward scaling up these systems.

  17. Forward osmosis niches in seawater desalination and wastewater reuse.

    Valladares Linares, R; Li, Z; Sarp, S; Bucs, Sz S; Amy, G; Vrouwenvelder, J S


    This review focuses on the present status of forward osmosis (FO) niches in two main areas: seawater desalination and wastewater reuse. Specific applications for desalination and impaired-quality water treatment and reuse are described, as well as the benefits, advantages, challenges, costs and knowledge gaps on FO hybrid systems are discussed. FO can play a role as a bridge to integrate upstream and downstream water treatment processes, to reduce the energy consumption of the entire desalination or water recovery and reuse processes, thus achieving a sustainable solution for the water-energy nexus. FO hybrid membrane systems showed to have advantages over traditional membrane process like high pressure reverse osmosis and nanofiltration for desalination and wastewater treatment: (i) chemical storage and feed water systems may be reduced for capital, operational and maintenance cost, (ii) water quality is improved, (iii) reduced process piping costs, (iv) more flexible treatment units, and (v) higher overall sustainability of the desalination and wastewater treatment process. Nevertheless, major challenges make FO systems not yet a commercially viable technology, the most critical being the development of a high flux membrane, capable of maintaining an elevated salt rejection and a reduced internal concentration polarization effect, and the availability of appropriate draw solutions (cost effective and non-toxic), which can be recirculated via an efficient recovery process. This review article highlights the features of hybrid FO systems and specifically provides the state-of-the-art applications in the water industry in a novel classification and based on the latest developments toward scaling up these systems.

  18. Engineered Plastics Containing Recycled Rubber

    Dong Yang Wu


    @@ 1. Introduction In Australia 10.5 million rubber tyres are discarded annually, representing 120,000 tonnes of wasted rubber resource. Growing local and global concern about the impact of this waste on the environment requires action for the management and recycling of this highly valuable resource through the development of recycling technologies and innovative recycled/recyclable products.

  19. Generation, characterization and reuse of solid wastes from a biodiesel production plant.

    Oliveira, Fernando Jorge Santos; Santana, Daniele Dos Santos; Costa, Simone Soraya Brito; Oliveira, Lenise Diniz; Liduino, Vitor Silva; Servulo, Eliana Flávia Camporese


    The aim of this study was to identify and characterize industrial solid wastes generated by a biodiesel production plant in Brazil, as well as to present strategies for the management of these materials. This plant produces every year around 100,000tons of biodiesel from vegetable oils and animal fats. The methodology of the study included technical visits, interviews with the operational and environmental management staff as well as analysis of documents, reports and computerized data systems. An approach to reduce the generation of hazardous waste was investigated. It was take into account the amount of raw material that was processed, reduction of landfill disposal, and the maximization of the their recycling and reuse. The study also identified the sources of waste generation and accordingly prepared an evaluation matrix to determine the types of waste with the higher potential for minimization. The most important residue of the process was the filter material impregnated with oil and biodiesel, requiring, therefore, measures for its minimization. The use of these residues in the production of ceramic artefacts (light bricks) was considered to be very promising, since no significant effect on the physico-chemical and mechanical properties of the artefacts produced was observed. Phytotoxicity test using seeds of Lactuva sativa (lettuce), Brassica juncea (mustard), Abelmoschus esculentus (okra), Chrysanthemum leucanthemum (daisy), Dendranthema grandiflorum (chrysanthemum) and Allium porrum (leek) were carried out. The results clearly show incorporation of the waste material into bricks did not influence relative germination and relative root elongation in comparison to control tests. Copyright © 2016 Elsevier Ltd. All rights reserved.

  20. Typology of Options for Metal Recycling: Australia’s Perspective

    Artem Golev


    Full Text Available While Australia has traditionally relied on obtaining metals from primary sources (namely mined natural resources, there is significant potential to recover metals from end-of-life-products and industrial waste. Although any metals recycling value chain requires a feasible technology at its core, many other non-technical factors are key links in the chain, which can compromise the overall viability to recycle a commodity and/or product. The “Wealth from Waste” Cluster project funded by the Commonwealth Scientific Industrial Research Organisation (CSIRO Flagship Collaboration Fund and partner universities is focusing on identifying viable options to “mine” metals contained in discarded urban infrastructure, manufactured products and consumer goods. A key aspect of this research is to understand the critical non-technical barriers and system opportunities to enhance rates of metals recycling in Australia. Work to date has estimated the mass and current worth of metals in above ground resources. Using these outcomes as a basis, a typology for different options for (metal reuse and recycling has been developed to classify the common features, which is presented in this article. In addition, the authors investigate the barriers and enablers in the recycling value chain, and propose a set of requirements for a feasible pathway to close the material loop for metals in Australia.

  1. Recycling of Metals

    Damgaard, Anders; Christensen, Thomas Højlund


    Metals like iron and aluminium are produced from mineral ore and used for a range of products, some of which have very short lifetimes and thus constitute a major fraction of municipal waste. Packaging in terms of cans, foils and containers are products with a short lifetime. Other products like...... appliances, vehicles and buildings, containing iron and aluminium metals, have long lifetimes before they end up in the waste stream. The recycling of production waste and postconsumer metals has a long history in the metal industry. Some metal smelters are today entirely based on scarp metals. This chapter...... describes briefly how iron and aluminium are produced and how scrap metal is recycled in the industry. Quality requirements and use of recycled products are discussed, as are the resource and environmental issues of metal recycling. Copper and other metals are also found in waste but in much smaller...

  2. Recycling of Glass

    Christensen, Thomas Højlund; Damgaard, Anders


    system; this glass though has a long lifetime before ending up in the waste. Altogether these product types add up to 82% of the production of the European glass industry (IPCC, 2001). Recycling of glass in terms of cleaning and refilling of bottles as well as the use of broken glass in the production......Glass is used for many purposes, but in the waste system glass is predominantly found in terms of beverage and food containers with a relatively short lifetime before ending up in the waste. Furthermore there is a large amount of flat glass used in building materials which also ends up in the waste...... of new glass containers is well established in the glass industry. This chapter describes briefly howglass is produced and howwaste glass is recycled in the industry. Quality requirements and use of recycled products are discussed, as are the resource and environmental issues of glass recycling....

  3. Recycling of Glass

    Christensen, Thomas Højlund; Damgaard, Anders


    Glass is used for many purposes, but in the waste system glass is predominantly found in terms of beverage and food containers with a relatively short lifetime before ending up in the waste. Furthermore there is a large amount of flat glass used in building materials which also ends up in the waste...... system; this glass though has a long lifetime before ending up in the waste. Altogether these product types add up to 82% of the production of the European glass industry (IPCC, 2001). Recycling of glass in terms of cleaning and refilling of bottles as well as the use of broken glass in the production...... of new glass containers is well established in the glass industry. This chapter describes briefly howglass is produced and howwaste glass is recycled in the industry. Quality requirements and use of recycled products are discussed, as are the resource and environmental issues of glass recycling....

  4. Challenges in plastics recycling

    Pivnenko, Kostyantyn; Jakobsen, L. G.; Eriksen, Marie Kampmann


    Recycling of waste plastics still remains a challenging area in the waste management sector. The current and potential goals proposed on EU or regional levels are difficult to achieve, and even to partially fullfil them the improvements in collection and sorting should be considerable. A study...... was undertaken to investigate the factors affecting quality in plastics recycling. The preliminary results showed factors primarily influencing quality of plastics recycling to be polymer cross contamination, presence of additives, non-polymer impurities, and polymer degradation. Deprivation of plastics quality......, with respect to recycling, has been shown to happen throughout the plastics value chain, but steps where improvements may happen have been preliminary identified. Example of Cr in plastic samples analysed showed potential spreading and accumulation of chemicals ending up in the waste plastics. In order...

  5. Recycle or pollute?

    Guiking, F.C.T.


    When growing oil palms, quantities of crop residues are high, which means that recycling is laborious and options to absorb these byproducts are easily saturated. Burning or composting may have harmful environmental effects

  6. Desalination and reuse of high-salinity shale gas produced water: drivers, technologies, and future directions.

    Shaffer, Devin L; Arias Chavez, Laura H; Ben-Sasson, Moshe; Romero-Vargas Castrillón, Santiago; Yip, Ngai Yin; Elimelech, Menachem


    In the rapidly developing shale gas industry, managing produced water is a major challenge for maintaining the profitability of shale gas extraction while protecting public health and the environment. We review the current state of practice for produced water management across the United States and discuss the interrelated regulatory, infrastructure, and economic drivers for produced water reuse. Within this framework, we examine the Marcellus shale play, a region in the eastern United States where produced water is currently reused without desalination. In the Marcellus region, and in other shale plays worldwide with similar constraints, contraction of current reuse opportunities within the shale gas industry and growing restrictions on produced water disposal will provide strong incentives for produced water desalination for reuse outside the industry. The most challenging scenarios for the selection of desalination for reuse over other management strategies will be those involving high-salinity produced water, which must be desalinated with thermal separation processes. We explore desalination technologies for treatment of high-salinity shale gas produced water, and we critically review mechanical vapor compression (MVC), membrane distillation (MD), and forward osmosis (FO) as the technologies best suited for desalination of high-salinity produced water for reuse outside the shale gas industry. The advantages and challenges of applying MVC, MD, and FO technologies to produced water desalination are discussed, and directions for future research and development are identified. We find that desalination for reuse of produced water is technically feasible and can be economically relevant. However, because produced water management is primarily an economic decision, expanding desalination for reuse is dependent on process and material improvements to reduce capital and operating costs.

  7. Combination of ozonation, activated carbon, and biological aerated filter for advanced treatment of dyeing wastewater for reuse.

    Zou, Xiao-Ling


    Laboratorial scale experiments were performed to investigate and evaluate the performance and removal characteristics of organics, color, and genotoxicity by an integrated process including ozonation, activated carbon (AC), and biological aerated filter (BAF) for recycling biotreated dyeing wastewater (BTDW) collected from a cotton textile factory. Influent chemical oxygen demand (COD) in the range of 156 - 252 mg/L, 5-day biochemical oxygen demand (BOD5) of 13.5 - 21.7 mg/L, and color of 58 - 76° were observed during the 20-day continuous operation. Outflows with average COD of 43 mg/L, BOD5 of 6.6 mg/L, and color of 5.6° were obtained after being decontaminated by the hybrid system with ozone dosage of 0.25 mg O3applied/mg COD0, 40 min ozonation contact time, 30 min hydraulic retention time (HRT) for AC treatment, and 2.5 h HRT for BAF treatment. More than 82 % of the genotoxicity of BTDW was eliminated in the ozonation unit. The genotoxicity of the BAF effluent was less than 1.33 μg 4-nitroquinoline-N-oxide/L. Ozonation could change the organics molecular structures, destroy chromophores, increase the biodegradability, and obviously reduce the genotoxicity of BTDW. Results showed that the combined process could guarantee water reuse with high quality.

  8. The Recycler Electron Cooler

    Shemyakin, A. [Fermi National Accelerator Lab. (FNAL), Batavia, IL (United States); Prost, L. R. [Fermi National Accelerator Lab. (FNAL), Batavia, IL (United States)


    The Recycler Electron cooler was the first (and so far, the only) cooler working at a relativistic energy (γ = 9.5). It was successfully developed in 1995-2004 and was in operation at Fermilab in 2005-2011, providing cooling of antiprotons in the Recycler ring. This paper describes the cooler, difficulties in achieving the required electron beam parameters and the ways to overcome them, cooling measurements, and details of operation.

  9. Survey on the FRP waste recycling system; FRP haikibutsu recycle system ni kansuru chosa



    Using the area around the Ariake Sea in Kyushu as a model case, the FRP (fiber reinforced plastics) waste recycling system which can be established in Japan has been investigated in cooperation with local government bodies and fishery organizations. As a result, some proposals are provided. The recovery of waste boats utilizing existing sales outlets for fishing boats will facilitate efficient transport, efficient removal of vessel fixtures, and information management and user guidance via existing sales routes. This should make it possible to systematically secure and dispose a certain volume of scrapped FRP boats, and thus generate savings in the disposal costs. In the Phase 1, the main focus will be on establishing the recovery system for scrapped FRP boats to promote reuse and prevent improper disposal. In the Phase 2, the economics will be improved by expanding the recovery system to include other FRP waste products. In the Phase 3, the number of recyclable items will be increased, and thus the recycling system will be completed. 3 refs., 11 figs., 7 tabs.

  10. Encouraging Vietnamese Household Recycling Behavior: Insights and Implications

    The Ninh Nguyen


    Full Text Available This research aims to provide new insights into various determinants affecting household recycling. By focusing on Vietnam, this research also extends knowledge about sustainable behavior in emerging markets, which are the major culprits in terms of greenhouse gas emissions. Hypotheses were developed as a result of the critical review of relevant studies in the fields of marketing, psychology, and economics, and then tested using a quantitative survey data. Structured questionnaires were administered to Vietnamese respondents which yielded 486 usable responses. Multivariate statistics reveal that all the determinants influenced their recycling behavior except for moral norms. Attitude towards the importance of recycling exerted the strongest influence, followed by subjective norms and warm glow respectively. On the other hand, attitude towards the inconvenience of recycling significantly reduced recycling behavior. The research findings have important implications for strategies aimed at promoting recycling behavior. Communication and education programs should emphasize how household recycling contributes to environmental protection, as well as stress intrinsic rewards when recycling. Public media campaigns should feature opinion leaders and attractive communicators, who can effectively apply social pressure to perform recycling behavior. Organizations should also make every effort to make recycling more convenient.

  11. Heterogenized Bimetallic Pd-Pt-Fe3O4 Nanoflakes as Extremely Robust, Magnetically Recyclable Catalysts for Chemoselective Nitroarene Reduction.

    Byun, Sangmoon; Song, Yeami; Kim, B Moon


    A very simple synthesis of bimetallic Pd-Pt-Fe3O4 nanoflake-shaped alloy nanoparticles (NPs) for cascade catalytic reactions such as dehydrogenation of ammonia-borane (AB) followed by the reduction of nitro compounds (R-NO2) to anilines or alkylamines (R-NH2) in methanol at ambient temperature is described. The Pd-Pt-Fe3O4 NPs were easily prepared via a solution phase hydrothermal method involving the simple one-pot coreduction of potassium tetrachloroplatinate (II) and palladium chloride (II) in polyvinylpyrrolidone with subsequent deposition on commercially available Fe3O4 NPs. The bimetallic Pd-Pt alloy NPs decorated on Fe3O4 NPs provide a unique synergistic effect for the catalysis of cascade dehydrogenation/reduction. Various nitroarene derivatives were reduced to anilines with very specific chemoselectivity in the presence of other reducible functional groups. The bimetallic Pd-Pt-Fe3O4 NPs provide a unique synergistic effect for the catalysis of cascade dehydrogenation/reduction. The nitro reduction proceeded in 5 min with nearly quantitative conversions and yields. Furthermore, the magnetically recyclable nanocatalysts were readily separated using an external magnet and reused up to 250 times without any loss of catalytic activity. A larger scale (10 mmol) reaction was also successfully performed with >99% yield. This efficient, recyclable Pd-Pt-Fe3O4 NPs system can therefore be repetitively utilized for the reduction of various nitro-containing compounds.

  12. PET and Recycling

    Funda Sevencan


    Full Text Available This review aims to clarify the need of decreasing the environmental effects caused by human and draw attention to the increasing environmental effects of plastics wastes. Plastics consist of organic molecules with high density molecules or polymers. Main resources of plastics are the residue of oil rafineries. Several advantages of plastics, have increased the usage continuously. Polyethylene Terephthalate (PET is the most commonly used plastics. PET is used to protect food, drinking water, fruit juice, alcoholic beverage, and food packing films. By the increasing interest on the environmental effects of plastic wastes, concerns on the recyclable packing materials also grew up. Also the daily use of recyclable containers consisting PET have increased. There are five steps for recycling of plastics. These steps are; using large amounts of plastics, collecting them in a big center, classifying and sorting the plastics, reproducing the polymers and obtaining new products with melted plastics. Providing a healthy recycling of plastics, the consumers should have knowledge and responsibility. The consumer should know what he/she has to do before putting the plastics in the recycling containers. Recycling containers and bags should be placed near the sources of plastic wastes. Consequently, the plastic wastes and environmental problems they cause will be on the agenda in future. [TAF Prev Med Bull. 2007; 6(4: 307-312

  13. Approaching Moisture Recycling Governance

    Keys, Patrick; Wang-Erlandsson, Lan; Gordon, Line; Galaz, Victor; Ebbesson, Jonas


    The spatial and temporal dynamics of water resources are a continuous challenge for effective and sustainable national and international governance. Despite the surface watershed being the typical unit of water management, recent advances in hydrology have revealed 'atmospheric watersheds' - otherwise known as precipitationsheds. Also, recent research has demonstrated that water flowing within a precipitationshed may be modified by land-use change in one location, while the effect of this modification could be felt in a different province, nation, or continent. Notwithstanding these insights, the major legal and institutional implications of modifying moisture recycling have remained unexplored. In this presentation, we examine potential approaches to moisture recycling governance. We first identify a set of international study regions, and then develop a typology of moisture recycling relationships within these regions ranging from bilateral moisture exchange to more complex networks. This enables us to classify different types of legal and institutional governance principles. Likewise, we relate the moisture recycling types to existing land and water governance frameworks and management practices. The complexity of moisture recycling means institutional fit will be difficult to generalize for all moisture recycling relationships, but our typology allows the identification of characteristics that make effective governance of these normally ignored water flows more tenable.

  14. 印染产品质量与废水重复利用相关问题的探讨%Discussion on the related problems of the quality of dyeing and finishing products and the reuse of waste water



    印染产品生产中尽可能地使用回用水,有利于提高水重复利用率,降低重生产成本,但使用不当会影响印染产品质量,印染企业应给予重视。%Using reusing water in the production of dyeing and finishing as much as possible is helpful to improve the rate of water recycle and reduce the production cost but improper using will affect the quality of dyeing and finishing, so the enterprises of dyeing and finishing should give attention to it.

  15. Recycling of waste PET into useful textile auxiliaries.

    Shukla, S R; Harad, Ajay M; Jawale, Laxmikant S


    Polyethylene terephthalate (PET) waste fibers were initially depolymerized using a glycolysis route in the presence of sodium sulfate as a catalyst, which is a commonly used chemical and ecofriendly as compared to heavy metal catalysts. Good yield of the pure monomer bis(2-hydroxyethylene terephthalate) (BHET) was obtained. Further, to attempt its reuse, the purified BHET was converted to different fatty amide derivatives to obtain quaternary ammonium compounds that have a potential for use as softener in the textile finishing process. The products were characterized by infrared spectroscopy. Application of these synthesized compounds was carried out on cotton fabric; they were evaluated for performance and were found to give good results. The chemicals used during depolymerization and reuse of PET are inexpensive and comparatively less harmful to the environment, and thus offer advantages in the chemical recycling of polyester waste fibers.

  16. Reuse-based software production technology


    Software reuse is viewed as a key technology to improve software product quality and productivity. This paper discusses a series of technologies related with software reuse and software component technology: component model, which describes component's essential characteristics; component acquisition technology, of which domain engineering is the main approach; component management technology, of which component library is the kernel; application integration and composition technology, of which application engineering is the main approach; software evolution technology, of which software reengineering is the main approach, etc. This paper introduces the software development environment: JadeBird Software Production Line System, which effectively integrates the above-mentioned technologies.

  17. Reuse of experience in HazOp

    Abrahamsen, Kristin Marheim; Knudsen, Andreas


    This report presents a study of the effect of reusing experience in the Hazards and Operability Analysis method (HazOp method) with regards to how the effectiveness of the method is affected. The study was conducted by first creating a software tool for experience reuse in HazOp, then testing that tool in a student experiment in which the participants used the tool when conducting a HazOp.During the experiment it was found that students using the tool found 21% more hazards in the system unde...

  18. Effect of Aqueous Phase Recycling in Continuous Hydrothermal Liquefaction

    Klemmer, Maika; Madsen, René Bjerregaard; Houlberg, Kasper;


    The effect of recycling the aqueous phase in a continuous hydrothermal liquefaction process was investigated in terms of product yield distribution, carbon balance, and composition of all main fractions. Using a custom-built continuous reactor system, a long-term experiment was conducted at 350...... degrees C and 250 bar with a feedstock of dried distiller's grains with solubles. In two consecutive recycle experiments, the aqueous phase of the preceding experiment was used as dispersion medium for the feedstock preparation. In these recycle-experiments a significant increase in biocrude yields...... was observed with a maximum increase in the first recycle experiment. However, the recycling of the aqueous phase also resulted in lower heating values and higher water contents in the oil fraction. Based on these findings, recycling the aqueous phase is a trade-off between improved yields and reduced burn...

  19. Developing sustainable resource recovery and recycling

    Clapham, M. [Natural Resources Canada, Ottawa, ON (Canada). Minerals and Metals Sector


    The issues that should be addressed when developing resource recovery and recycling programs and initiatives were highlighted. When well thought out, these initiatives result in substantial increases in the recovery of products and materials at their end-of-life cycle. The issues discussed included design for the environment, consumption patterns, sustainable markets for recovered products, infrastructure, policy mechanisms, and technology. Each issue was examined from a life cycle approach. The author outlined several benefits associated with a resource recovery and recycling program including materials and energy efficiencies, reduced burdens to landfill, reduced greenhouse gas emissions, and social implications. The author also presented some examples of Canadian initiatives in the resource recovery and recycling sector. 15 refs., 1 tab., 4 figs.

  20. Nanomaterials environmental risks and recycling: Actual issues

    Živković Dragana


    Full Text Available Nanotechnologies are being spoken of as the driving force behind a new industrial revolution. Nanoscience has matured significantly during the last decade as it has transitioned from bench top science to applied technology. Presently, nanomaterials are used in a wide variety of commercial products such as electronic components, sports equipment, sun creams and biomedical applications. The size of nanoparticles allows them to interact strongly with biological structures, so they present potential human and environmental health risk. Nanometer size presents also a problem for separation, recovery, and reuse of the particulate matter. Therefore, industrial-scale manufacturing and use of nanomaterials could have strong impact on human health and the environment or the problematic of nanomaterials recycling. The catch-all term ''nanotechnology' is not sufficiently precise for risk governance and risk management purposes. The estimation of possible risks depends on a consideration of the life cycle of the material being produced, which involves understanding the processes and materials used in manufacture, the likely interactions between the product and individuals or the environment during its manufacture and useful life, and the methods used in its eventual disposal. From a risk-control point of view it will be necessary to systematically identify those critical issues, which should be looked at in more detail. Brief review of actual trends in nanomaterials environmental risks and recycling is given in this paper.

  1. Building recycling rates through the informal sector.

    Wilson, David C; Araba, Adebisi O; Chinwah, Kaine; Cheeseman, Christopher R


    Many developing country cities aspire to modern waste management systems, which are associated with relatively high recycling rates of clean, source separated materials. Most already have informal sector recycling systems, which are driven solely by the revenues derived from selling recovered materials, even though they are saving the formal sector money by reducing waste quantities. There is clear potential for 'win-win' co-operation between the formal and informal sectors, as providing support to the informal sector, to build recycling rates and to address some of the social issues could reduce the overall costs of waste management for the formal sector. This paper shows that recycling rates already achieved by the informal sector can be quite high, typically in the range from 20% to 50%; often up to half of this is in the form of clean, source separated materials collected directly from households and businesses by itinerant waste buyers. Four country case studies provide a number of lessons on how this solid foundation could be used to build high recycling rates of clean materials.

  2. Logistics Mode and Network Planning for Recycle of Crop Straw Resources

    Lingyun; ZHOU; Weidong; GU; Qing; ZHANG


    To realize the straw biomass industrialized development,it should speed up building crop straw resource recycle logistics network, increasing straw recycle efficiency,and reducing straw utilization cost. On the basis of studying straw recycle process,this paper presents innovative concept and property of straw recycle logistics network,analyses design thinking of straw recycle logistics network,and works out straw recycle logistics mode and network topological structure. Finally,it comes up with construction and operation strategies of the straw logistics network from infrastructure,organization network,and information platform.

  3. Silica Bonded S-Sulfonic Acid: A Recyclable Catalyst for the Synthesis of Quinoxalines at Room Temperature

    Khodabakhsh Niknam


    Full Text Available The reaction of 3-mercaptopropylsilica (MPS and chlorosulfonic acid in chloroform afforded silica bonded S-sulfonic acid (SBSSA, which was used as a catalyst for the room temperature synthesis of quinoxaline derivatives from 1,2-diamino compounds and 1,2-dicarbonyl compounds. The catalyst could be recycled and reused several times without any loss of efficiency.

  4. Quantifying the Reuse of Learning Objects

    Elliott, Kristine; Sweeney, Kevin


    This paper reports the findings of one case study from a larger project, which aims to quantify the claimed efficiencies of reusing learning objects to develop e-learning resources. The case study describes how an online inquiry project "Diabetes: A waste of energy" was developed by searching for, evaluating, modifying and then…

  5. Asset Reuse of Images from a Repository

    Herman, Deirdre


    According to Markus's theory of reuse, when digital repositories are deployed to collect and distribute organizational assets, they supposedly help ensure accountability, extend information exchange, and improve productivity. Such repositories require a large investment due to the continuing costs of hardware, software, user licenses, training,…

  6. Integration and Reuse in Cognitive Skill Acquisition

    Salvucci, Dario D.


    Previous accounts of cognitive skill acquisition have demonstrated how procedural knowledge can be obtained and transformed over time into skilled task performance. This article focuses on a complementary aspect of skill acquisition, namely the integration and reuse of previously known component skills. The article posits that, in addition to…

  7. Code Reuse and Modularity in Python

    William J. Turkel


    Full Text Available Computer programs can become long, unwieldy and confusing without special mechanisms for managing complexity. This lesson will show you how to reuse parts of your code by writing Functions and break your programs into Modules, in order to keep everything concise and easier to debug. Being able to remove a single dysfunctional module can save time and effort.

  8. Reuse of drainage water from irrigated areas

    Willardson, L.S.; Boels, D.; Smedema, L.K.


    Increasing competition for water of good quality and the expectation that at least half of the required increase in food production in the near-future decades must come from the world's irrigated land requires to produce more food by converting more of the diverted water into food. Reuse of the

  9. Treated Wastewater Reuse on Potato (Solanum Tuberosum)

    Battilani, A; Plauborg, Finn; Andersen, Mathias Neumann


    ) was treated by Membrane Bio Reactor (MBR) technology and gravel filter (FTS) during three cropping seasons. Treated wastewater, soil and tubers were analysed for the faecal indicator bacterium E. coli and heavy metals contents. Potato total yield was similar for tap and reused water, while the marketable...

  10. Creating by Reusing Learning Design Solutions

    Hernández-Leo, Davinia; Harrer, Andreas; Dodero, Juan Manuel; Asensio-Pérez, Juan; Burgos, Daniel


    Hernández-Leo, D., Harrer, A., Dodero, J. M., Asension-Pérez, J. I., & Burgos, D. (2006). Creating by reusing Learning Design solutions. Proceedings of 8th Simposo Internacional de Informática Educativa, León, Spain: IEEE Technical Committee on Learning Technology. Retrieved October 3rd, 2006, from

  11. Assessing changes on poly(ethylene terephthalate) properties after recycling: Mechanical recycling in laboratory versus postconsumer recycled material

    López, María del Mar Castro, E-mail: [Grupo de Polímeros, Centro de Investigacións Tecnológicas (CIT), Departamento de Física, Escuela Universitaria Politécnica, Universidade de A Coruña, Campus de Ferrol, 15403 Ferrol (Spain); Ares Pernas, Ana Isabel, E-mail: [Grupo de Polímeros, Centro de Investigacións Tecnológicas (CIT), Departamento de Física, Escuela Universitaria Politécnica, Universidade de A Coruña, Campus de Ferrol, 15403 Ferrol (Spain); Abad López, Ma José, E-mail: [Grupo de Polímeros, Centro de Investigacións Tecnológicas (CIT), Departamento de Física, Escuela Universitaria Politécnica, Universidade de A Coruña, Campus de Ferrol, 15403 Ferrol (Spain); and others


    Keeping rheological, mechanical and thermal properties of virgin poly(ethylene terephthalate), PET, is necessary to assure the quality of second-market applications. A comparative study of these properties has been undertaken in virgin, mechanical recycled and commercial recycled PET samples. Viscoelastic characterization was carried out by rheological measurements. Mechanical properties were estimated by tensile and Charpy impact strength tests. Thermal properties and crystallinity were evaluated by differential scanning calorimetry and a deconvolution procedure was applied to study the population of the different crystals. Molecular conformational changes related to crystallinity values were studied by FTIR spectroscopy. Variations in average molecular weight were predicted from rheology. Besides, the presence-absence of linear and cyclic oligomeric species was measured by mass spectrometry techniques, as MALDI-TOF. Mechanical recycled PET undergoes a significant decline in rheological, mechanical and thermal properties upon increasing the number of reprocessing steps. This is due to the cleavage of the ester bonds with reduction in molar mass and raise in cyclic oligomeric species, in particular [GT{sub c}]{sub n} and [GT{sub c}]{sub n}-G type. Chain shortening plus enrichment in trans conformers favour the crystallization process which occurs earlier and faster with modification in crystal populations. Additional physicochemical steps are necessary to preserve the main benefits of PET. - Highlights: • Combination of multiple techniques to characterize the effects of recycling in PET. • Cleavage of ester bonds reduced viscosity, Mw, toughness in mechanical recycled PET. • Virgin, mechanical recycled and commercial recycled PET differ in crystal populations. • Cyclic oligomers [GT{sub c}]{sub n} and [GT{sub c}]{sub n}-G increase from the fourth extrusion cycle onwards.

  12. A proposed approach for the assessment of chemicals in indirect potable reuse schemes.

    Rodriguez, Clemencia; Weinstein, Philip; Cook, Angus; Devine, Brian; Van Buynder, Paul


    The city of Perth in Western Australia is facing a future of compromised water supplies. In recent years, this urban region has been experiencing rapid population growth, coupled with drying climate, which has exacerbated water shortages. As part of the government strategy to secure water sustainability and to address an agenda focused on all elements of the water cycle, a target of 20% reuse of treated wastewater by 2012 was established. This includes a feasibility review of managed aquifer recharge for indirect potable reuse. A characterization of contaminants in wastewater after treatment and an assessment of the health implications are necessary to reassure both regulators and the public. To date, the commonly used approach involves a comparison of measured contaminant concentrations with the established drinking-water standards or other toxicological guidelines for the protection of human health. However, guidelines and standards have not been established for many contaminants in recycled water (unregulated chemicals). This article presents a three-tiered approach for the preliminary health risk assessment of chemicals in order to determine key contaminants that need to be monitored and managed. The proposed benchmark values for the calculation of risk quotients are health based, systematically defined, scientifically defensible, easy to apply, and clear to interpret. The proposed methodology is based on the derivation of health-based levels for unregulated contaminants with toxicity information and a "threshold of toxicological concern" for unregulated contaminants without toxicity data. The application of this approach will help policymakers set guidelines regarding unregulated chemicals in recycled water.

  13. Recycling of Reinforced Plastics

    Adams, R. D.; Collins, Andrew; Cooper, Duncan; Wingfield-Digby, Mark; Watts-Farmer, Archibald; Laurence, Anna; Patel, Kayur; Stevens, Mark; Watkins, Rhodri


    This work has shown is that it is possible to recycle continuous and short fibre reinforced thermosetting resins while keeping almost the whole of the original material, both fibres and matrix, within the recyclate. By splitting, crushing hot or cold, and hot forming, it is possible to create a recyclable material, which we designate a Remat, which can then be used to remanufacture other shapes, examples of plates and tubes being demonstrated. Not only can remanufacturing be done, but it has been shown that over 50 % of the original mechanical properties, such as the E modulus, tensile strength, and interlaminar shear strength, can be retained. Four different forms of composite were investigated, a random mat Glass Fibre Reinforced Plastic (GFRP) bathroom component and boat hull, woven glass and carbon fibre cloth impregnated with an epoxy resin, and unidirectional carbon fibre pre-preg. One of the main factors found to affect composite recyclability was the type of resin matrix used in the composite. Thermoset resins tested were shown to have a temperature range around the Glass Transition Temperature (Tg) where they exhibit ductile behaviour, hence aiding reforming of the material. The high-grade carbon fibre prepreg was found to be less easy to recycle than the woven of random fibre laminates. One method of remanufacturing was by heating the Remat to above its glass transition temperature, bending it to shape, and then cooling it. However, unless precautions are taken, the geometric form may revert. This does not happen with the crushed material.

  14. Quality Control of Recycled Aggregates Derived from Construction and Demolition Wastes

    POON Chi-sun; KOU Shi-cong


    In 2007, over 24 million tons of Construction and Demolition (C&D) wastes were generated in Hong Kong. Since the local landfills will be saturated in about 6 years, it is important to find a viable way to reuse these waste materials as to alleviate the demand on public fill capacity. In order to tackle the problem, the Hong Kong government has set up a temporary recycling facility in Hong Kong in 2002 for producing different sizes of recycled aggregate for use in various construction materials. The Hong Kong Polytechnic University has been studying the feasible use of recycled aggregates in Hong Kong for a number of years. A substantial amount of experimental results on the properties of recycled aggregates and the effect of recycled aggregates on the properties of concrete and other construction products (e. G. Concrete blocks and granular sub-base) has been published. In this paper, the experience of Hong Kong in using recycled aggregates are summarized and a set of quality control guidelines proposed for governing the use of recycled aggregates in Hong Kong is introduced. The experience and guidelines may also be useful for the recycling of waste materials derived from the recent Sichuan earthquake in China.

  15. Performance of recycling abrasives in rock cutting by abrasive water jet

    Gokhan Aydin


    Rock cutting performance of recycling abrasives was investigated in terms of cutting depth, kerf width, kerf taper angle and surface roughness. Gravity separation technique was employed to separate the abrasives and the rock particles. The recycling abrasive particles were then dried and sieved for determination of their disintegration behaviors. Before each cutting with recycling abrasives, the abrasive particles less than 106mm were screened out. It is revealed that a considerable amount of used abrasives can be effectively reused in the rock cutting. The reusabilities of abrasives are determined as 81.77%, 57.50%, 34.37%and 17.72%after the first, second, third and fourth cuttings, respectively. Additionally, it is determined that recycling must be restricted three times due to the excessive disintegration of abrasives with further recycling. Moreover, it is concluded that cutting depth, kerf width and surface roughness decreases with recycling. No clear trend is found between the kerf taper angle and recycling. Particle size distribution is determined as an important parameter for improving the cutting performance of recycling abrasives.

  16. Basic Properties of Concrete Incorporating Recycled Ceramic Aggregate and Ultra-fine Sand

    LIU Fengli; LIU Junhua; MA Baoguo; HUANG Jian; LI Hainan


    Recycled ceramic mixed sand (RCMS) was obtained by partially replacing ultra-fine sand with recycled ceramic coarse sand (RCCS). The effects of RCCS replacement rate on the apparent density, workability, compressive strength and splitting tensile strength of recycled ceramic concrete (RCC) were investigated. In addition, the relationship between the water-cement ratio and compressive strength of RCC was also studied. The experimental results indicate that the reusing of recycled ceramic aggregate can improve the cohesiveness and water retentiveness of fresh concrete and benefit the mechanical properties development. When the RCCS replacement rate is not less than 40%, the mechanical properties of RCC are superior to those of the reference concrete. Moreover, when recycled ceramic medium sand was completely used as fine aggregate, the maximum increase in both compressive strength and splitting tensile strength were obtained, comparing with those of reference concrete, the increment ratio was 19.85% and 32.73%, respectively. The microscopic analysis shows that the using of recycled ceramic aggregate can meliorate distinctly the structure of the interfacial transition zone (ITZ) and increase the compaction degree of cement paste. Furthermore, an expression of the compressive strength of RCC and the cement-water ratio is regressed and gains a good linear relativity. It is an effective way to recycle waste ceramic, and the consumption of recycled ceramic aggregate could reach from 26.9%to 47.6%of the total weight of aggregate in producing concrete.

  17. Reuse of wastewater in urban farming and urban planning ...

    Reuse of wastewater in urban farming and urban planning implications in Katsina metropolis, Nigeria. ... In Nigeria, there is a paucity of information on reuse of waste water in urban farming. The purpose of this paper is to ... Article Metrics.

  18. Wastewater and sludge reuse in agriculture

    Kalavrouziotis, Ioannis


    The reuse of Municipal wastewaters (TMWW) for irrigation of crops, and of sludge for the amendment of soils, is a multidimensional disposal practice aiming at: (i) minimizing the environmental problems by releasing the pressure exerted by these two inputs on the environment, (ii) providing the growing plants with water and nutrients and (ii) improving soil fertility and productivity, The research work conducted in our University in relation to accomplishing a safe reuse has been focused on the study of the following aspects of reuse: (i) heavy metal accumulation in soils and plants with emphasis on their edible part. This aspect has been studied by conducting a series of experiments aiming at the study of the accumulation of heavy metals in soils, and in plant roots, stalks, leaves and fruits. The conclusions drawn so far with regard to the order of accumulation of heavy metals are: Roots>leaves>stalks>fruits ( edible parts) (ii) interactions between heavy metals, plant nutrients and soil chemical and physical properties. After the examinations of hundreds of interactions, and the development of a quantification of the interactions contribution, it was found that considerable quantities of heavy metals and nutrients are contributed to the soil and to various plant parts , emphasizing the important role of the elemental interactions in plants.(iii) assessment of soil pollution with heavy metals based on pollution indices, Three pollution Indices have been established by our research team and were proposed internationally for application in actual practice for the prediction of soil pollution due to long term reuse of wastewater and sludge. These indices are as follows: (a) Elemental pollution Index (EPI), (b) Heavy Metal Load (HML), and (c) Total Concentration Factor (TCF) and (iv) construction of a computer program for the control of the reuse of TMWW and sludge, and forecasting soil pollution due to accumulation of heavy metal by means of pollution indices.

  19. Standard process for the roles and responsibilities for facility reuse of DOE Oak Ridge Reservation Facilities

    Loebl, A.S.; Trost, D.G.; Pastel, J.A.; Payne, S.G.; Fleenor, R.M.


    The purpose of this report is to provide an understanding of the standard process for the lease or sale of facilities, equipment, and real property for the Oak Ridge Reservation (ORR). The objective of this process is to facilitate the reindustrialization of the ORR for the Department of Energy (DOE). The roles and responsibilities in this standard, as defined in the attached narrative and flow diagrams, were agreed upon among various representatives from the DOE-Oak Ridge Operations Office (DOE-ORO), Lockheed Martin Energy Systems, Inc. (LMES), and the Community Reuse Organization of East Tennessee (CROET). Reindustrialization for the DOE encompasses several areas which include: facilities reuse, materials and equipment recycling, and worker transition activities. The DOE-ORO`s vision for the ORR is to have completed the reindustrialization activities for the K-25 Site by the year 2010. Several steps have already been taken to aggressively pursue this vision, such as determining the most efficient and cost-effective ways to expedite the facilities reuse process. This report provides the time-phased, step-by-step, process for the lease or sale of facilities, equipment, land, and suggestions on streamlining the required regulatory processes.

  20. Sustainable commercial nanocrystalline cellulose manufacturing process with acid recycling.

    Sarma, Saurabh Jyoti; Ayadi, Mariem; Brar, Satinder Kaur; Berry, Richard


    Nanocrystalline cellulose (NCC) is a biomaterial having potential applications in a wide range of industries. It is industrially produced by concentrated acid hydrolysis of cellulosic materials. In this process, the sulfuric acid rich liquor can be concentrated and reused. However, removal of sugar monomers and oligomers is necessary for such recycling. Membrane and ion exchange technology can be employed to remove sugars; however, such technologies are not efficient in meeting the quality required to recycle the acid solution. As a part of the present study, activated carbon (AC) has been evaluated as an adsorbent for sugar removal from the acidic solution generated during commercial nanocrystalline cellulose manufacturing process. Almost complete removal of sugar can be achieved by this approach. The maximum sugar removal observed during this study was 3.4g/g of AC. Based on this finding, a sustainable method has been proposed for commercial nanocrystalline cellulose manufacturing.

  1. Novel Remanufacturing Process of Recycled Polytetrafluoroethylene(PTFE)/GF Laminate

    Xi, Z.; Ghita, O. R.; Johnston, P.; Evans, K. E.


    Currently, the PTFE/GF laminate and PTFE PCB manufacturers are under considerable pressure to address the recycling issues due to Waste Electrical and Electronic Equipment (WEEE) Directive, shortage of landfill capacity and cost of disposal. This study is proposing a novel manufacture method for reuse of the mechanical ground PTFE/Glass fibre (GF) laminate and production of the first reconstitute PTFE/GF laminate. The reconstitute PTFE/GF laminate proposed here consists of a layer of recycled sub-sheet, additional layers of PTFE and PTFE coated glass cloth, also covered by copper foils. The reconstitute PTFE/GF laminate showed good dielectric properties. Therefore, there is potential to use the mechanical ground PTFE/GF laminate powder to produce reconstitute PTFE/GF laminate, for use in high frequencies PCB applications.

  2. Characteristics of recycled and electron beam irradiated high density polyethylene samples

    Cardoso, Jessica R.; Gabriel, Leandro; Geraldo, Aurea B.C.; Moura, Eduardo, E-mail:, E-mail:, E-mail: [Instituto de Pesquisas Energeticas e Nucleares (IPEN/CNEN-SP), Sao Paulo, SP (Brazil)


    Polymers modification by irradiation is a well-known process that allows degradation and cross-linking in concurrent events; this last is expected when an increase of mechanical properties is required. Actually, the interest of recycling and reuse of polymeric material is linked to the increase of plastics ending up in waste streams. Therefore, these both irradiation and recycling process may be conducted to allow a new use to this material that would be discarded by an improvement of its mechanical properties. In this work, the High Density Polyethylene (HDPE) matrix has been recycled five times from original substrate. The electron beam irradiation process was applied from 50 kGy to 200 kGy in both original and recycled samples; in this way, mechanical properties and thermal characteristics were evaluated. The results of applied process and material characterization are discussed. (author)

  3. Recycling cellulase towards industrial application of enzyme treatment on hardwood kraft-based dissolving pulp.

    Wang, Qiang; Liu, Shanshan; Yang, Guihua; Chen, Jiachuan; Ji, Xingxiang; Ni, Yonghao


    Cost-effectiveness is vital for enzymatic treatment of dissolving pulp towards industrial application. The strategy of cellulase recycling with fresh cellulase addition was demonstrated in this work to activate the dissolving pulp, i.e. decreasing viscosity and increasing Fock reactivity. Results showed that 48.8-35.1% of cellulase activity can be recovered from the filtered liquor in five recycle rounds, which can be reused for enzymatic treatment of dissolving pulp. As a result, the recycling cellulase with addition fresh cellulase of 1mg/g led to the pulp of viscosity 470mL/g and Fock reactivity 80%, which is comparable with cellulase charge of 2mg/g. Other pulp properties such as alpha-cellulose, alkaline solubility and molecular weight distribution were also determined. Additionally, a zero-release of recycling cellulase treatment was proposed to integrate into the dissolving pulp production process.

  4. Direct regeneration of recycled cathode material mixture from scrapped LiFePO4 batteries

    Li, Xuelei; Zhang, Jin; Song, Dawei; Song, Jishun; Zhang, Lianqi


    A new green recycling process (named as direct regeneration process) of cathode material mixture from scrapped LiFePO4 batteries is designed for the first time. Through this direct regeneration process, high purity cathode material mixture (LiFePO4 + acetylene black), anode material mixture (graphite + acetylene black) and other by-products (shell, Al foil, Cu foil and electrolyte solvent, etc.) are recycled from scrapped LiFePO4 batteries with high yield. Subsequently, recycled cathode material mixture without acid leaching is further directly regenerated with Li2CO3. Direct regeneration procedure of recycled cathode material mixture from 600 to 800 °C is investigated in detail. Cathode material mixture regenerated at 650 °C display excellent physical, chemical and electrochemical performances, which meet the reuse requirement for middle-end Li-ion batteries. The results indicate the green direct regeneration process with low-cost and high added-value is feasible.

  5. Performance Analysis of Old-for-new Policy and Improved Recycling System on Waste Electrical Products%家电以旧换新政策中废旧电子产品回收效果与改进体系

    刘慧慧; 黄涛; 雷明


    我国近几年实施的家电以旧换新政策除了刺激消费需求外,对废旧电子产品回收也产生了积极的带动效应。本文对这一效应进行考察,指出该政策可以向废旧电子产品回收体系发展,并针对我国现有废旧电子产品回收体系存在的问题,提出了规范化的废旧电子产品回收再利用体系。同时,本文建立了环保积分制模型,提出企业层面的以旧换新策略既符合生产者责任制的基本思想,又能为有拆解资质的回收处理企业提供补贴,有效促进正规回收渠道的发展,从而提升废旧电子产品回收体系的市场自运营能力。%In mainland China, the old-for-new policy on household electrical appliances has been in force for more than two years and has brought a positive effect on the recycling of waste electrical products, besides boosting consumption. The paper focuses on this effect and suggests that the old-for-new policy can be improved into a recy- cling system of waste electrical products, since the newly established recycling platform promoted by government has been pretty complete and it is too much a waste to end it suddenly. After analyzing the weakness of current re- cycling system, such as too much dependence on government subsidies, lack of enterprise cooperation and unable to sustainably develop and so on, the paper proposes a standardized system of reusing and recycling waste products. Based on the original recycling system, the improved one adds the cooperation between manufacturing firms and re- tailers and qualified recycling firms. Through building a model of environment-friendly credit, the improved system is proved to enable the recycling project of waste electrical products to self-operate smoothly in the market, without needing too much interference of government. The credit model describes a price competition between regular recycling channel, which consists of manufac- turing firms, retailers and

  6. Progress Towards a NASA Earth Science Reuse Enablement System (RES)

    Marshall, James J.; Downs, Robert R.; Mattmann, Chris A.


    A Reuse Enablement System (RES) allows developers of Earth science software to contribute software for reuse by others and.for users to find, select, and obtain software for reuse in their own systems. This paper describes work that the X4S,4 Earth Science Data Systems (ESDS) Software Reuse Working Group has completed to date in the development of an RES for NASA.

  7. Reuse Adoption Guidebook. Version 02.00.05


    reusable assets? Who builds them? Who reuses them? What rights do the customer, developer, and reuser have to the assets? Who pays whom for assets that... reuser have to the assets? Who pays whom for assets that are reused? Who assumes liability for reused assets? " Awns Apprmeuk What processes, methods...34* How are the costs of reuse accounted for? "* What ownership rights do the customer, developer, and reuser have to the assets? "* How is the price

  8. Savannah River Site Surplus Facilities Available for Reuse

    Clarke, R.M.; Owens, M.B.; Lentz, D.W.


    The purpose of this document is to provide a current, centralized list of Savannah River Site facilities, which are surplus and available for reuse. These surplus facilities may be made available for other DOE site missions, commercial economic development reuse, or other governmental reuse. SRS procedures also require that before new construction can be approved, available surplus facilities are screened for possible reuse in lieu of the proposed new construction.

  9. Recycling as moral behaviour

    Thøgersen, John

    of Reasoned Action (TRA) with regard to understanding recycling behaviour. Further, examples of misleading policy conclusions are discussed suggested that within the framework of cognitive psychology, Schwartz's model of altruistic behaviour offers a more satisfying starting point for understanding recycling......It is argued in this paper that in the affluent, industrial societies, environmental behaviours like recycling are typically classified within ""the domain of morality"" in people's minds. Intentions regarding these types of behaviours are not ba a thorough - conscious or unconscious - calculation...... of the balance of costs and benefits. Rather, they are a function of the person's moral beliefs, i.e., beliefs in what is the right or wrong thing to do. The paper gives a brief review of the literature with the intention of uncovering problems and shortcomings in the framework of the SEU-model and the Theory...

  10. Recycling of Plastic

    Christensen, Thomas Højlund; Fruergaard, Thilde


    Plastic is produced from fossil oil. Plastic is used for many different products. Some plastic products like, for example, wrapping foil, bags and disposable containers for food and beverage have very short lifetimes and thus constitute a major fraction of most waste. Other plastic products like......, for example, gutters, window frames, car parts and transportation boxes have long lifetimes and thus appear as waste only many years after they have been introduced on the market. Plastic is constantly being used for new products because of its attractive material properties: relatively cheap, easy to form......, good strength and long durability. Recycling of plastic waste from production is well-established, while recycling of postconsumer plastic waste still is in its infancy. This chapter describes briefly how plastic is produced and how waste plastic is recycled in the industry. Quality requirements...

  11. A two-level network for recycling sand: A case study

    Barros, A.I.; Dekker, R.; Scholten, V.


    In the Netherlands, the recycling of construction waste and in particular of sand creates an important logistic problem. New legislation ensures that disposal is reduced to a minimal level and this incentives recycling. Such measures cause an increase on the offer of sand (a subproduct of recycling

  12. 40 CFR 761.35 - Storage for reuse.


    ... 40 Protection of Environment 30 2010-07-01 2010-07-01 false Storage for reuse. 761.35 Section 761... Manufacturing, Processing, Distribution in Commerce, and Use of PCBs and PCB Items § 761.35 Storage for reuse. (a) The owner or operator of a PCB Article may store it for reuse in an area which is not...

  13. Greywater reuse for toilet flushing at a university academic and ...

    water reuse, with water reuse applications requiring little to ... is categorised into light and dark greywater, with light grey- water ... location-specific, and most often present problems where GWR ... guidelines for GWR for small-scale agricultural irrigation. ...... Greywater reuse for toilet flushing in high-density urban buildings.

  14. Software Reuse in Agile Development Organizations - A Conceptual Management Tool

    Spoelstra, Wouter; Iacob, Maria; Sinderen, van Marten


    The reuse of knowledge is considered a major factor for increasing productivity and quality. In the software industry knowledge is embodied in software assets such as code components, functional designs and test cases. This kind of knowledge reuse is also referred to as software reuse. Although the

  15. Conceptual Match as a Determinant of Reference Reuse in Dialogue

    Knutsen, Dominique; Le Bigot, Ludovic


    As speakers interact, they add references to their common ground, which they can then reuse to facilitate listener comprehension. However, all references are not equally likely to be reused. The purpose of this study was to shed light on how the speakers' conceptualizations of the referents under discussion affect reuse (along with a generation…

  16. How much reduction of virus is needed for recycled water: A continuous changing need for assessment?

    Gerba, Charles P; Betancourt, Walter Q; Kitajima, Masaaki


    To ensure the safety of wastewater reuse for irrigation of food crops and drinking water pathogenic viruses must be reduced to levels that pose no significant risk. To achieve this goal minimum reduction of viruses by treatment trains have been suggested. For use of edible crops a 6-log reduction and for production of potable drinking water a 12-log reduction has been suggested. These reductions were based on assuming infective virus concentrations of 10(5) to 10(6) per liter. Recent application of molecular methods suggests that some pathogenic viruses may be occurring in concentrations of 10(7) to 10(9) per liter. Factors influencing these levels include the development of molecular methods for virus detection, emergence of newly recognized viruses, decrease in per capita water use due to conservation measures, and outbreaks. Since neither cell culture nor molecular methods can assess all the potentially infectious virus in wastewater conservative estimates should be used to assess the virus load in untreated wastewater. This review indicates that an additional 2- to 3-log reduction of viruses above current recommendations may be needed to ensure the safety of recycled water. Information is needed on peak loading of viruses. In addition, more virus groups need to be quantified using better methods of virus quantification, including more accurate methods for measuring viral infectivity in order to better quantify risks from viruses in recycled water. Copyright © 2016 Elsevier Ltd. All rights reserved.

  17. Recycling of osmotic solutions in microwave-osmotic dehydration: product quality and potential for creation of a novel product.

    Wray, Derek; Ramaswamy, Hosahalli S


    Despite osmotic dehydration being a cost effective process for moisture removal, the cost implications of making, regenerating, and properly disposing of the spent osmotic solutions contributes greatly to the economic feasibility of the drying operation. The potential for recycling of osmotic solutions and their use for creation of a novel product was explored using microwave-osmotic dehydration under continuous flow spray (MWODS) conditions. Identical runs were repeated 10 times to determine the progressive physical and compositional effects of the thermal treatment and leaching from the cranberry samples. The microbiological stability and constant drying performance indicated that MWODS would be well suited for employing recycled solutions. While the anthocyanin content of the solution never approached that of cranberry juice concentrate, it is demonstrated that the spent syrup can infuse these health positive components into another product (apple). This study found that re-using osmotic solutions is a viable option to reduce cost in future MWODS applications, with no detriment to product quality and potential to use the spent solution for novel products. © 2015 Society of Chemical Industry. © 2015 Society of Chemical Industry.

  18. Experimental mobile water reuse; Unidade movel experimental em reuso de agua

    Cunha, Maria de Fatima Rodrigues da; Santiago, Vania Maria Junqueira; Machado, Mara de Barros; Cerqueira, Ana Claudia Figueiras Pereira de; Florido, Priscilla Lopes; Iwane, Tsutomo; Coelho, Eloisia B.A.P.; Souza, Rodrigo Suhett de; Tomaz, Ailton Fonseca [Petroleo Brasileiro S.A. (PETROBRAS), Rio de Janeiro, RJ (Brazil)


    The search for environmental excellence in PETROBRAS and the need to minimize water use dictated by Law 9433/97 led to corporate guidelines to promote initiatives for the effective management of water resources, triggering a series of actions and projects. The Center for Research and Development - CENPES has as a priority research lines enable the reduction of water consumption in the oil industry through the reuse of effluent. The Mobile Unit for Experimental Water Reuse is a pioneer project in the world, in its format and purpose, was developed by CENPES in partnership with E and P - Process Engineering Ltda. and with e participation of the managements of Refine, SMES and Engineering. The main objective support initiatives aimed at reuse deployments Units of Operations (refineries and terminals, for example), by defining the best route technology for water treatment and wastewater. The Mobile Unit is composed of two trucks with pilot scale equipment that can test up to 90 technological solutions for water treatment and reuse. The station can test spot, the Company's refinery, processes to remove solids, organic load removal, and processes aimed at polishing and demineralization, simulating the operating conditions specific to the different characteristics of water and wastewater, with view to producing high quality water-compatible reuse in cooling towers or steam generation. From these tests CENPES may indicate the best alternative technically and economically for water reuse in design for industrial facilities, reducing time and cost of testing pilots. The field of knowledge in water reuse is an important asset to the sustainability of the Oil and Gas industry. Sustainable use of water resources is a goal of permanent PETROBRAS. (author)

  19. Coagulation efficiency and flocs characteristics of recycling sludge during treatment of low temperature and micro-polluted water

    Zhiwei Zhou; Yanling Yang; Xing Li; Wei Gao; Heng Liang; Guibai Li


    Drinking water treatment sludge,characterized as accumulated suspended solids and organic and inorganic matter,is produced in large quantities during the coagulation process.The proper disposal,regeneration or reuse of sludge is,therefore,a significant environmental issue.Reused sludge at low temperatures is an alternative method to enhance traditional coagulation efficiency.In the present study,the recycling mass of mixed sludge and properties of raw water (such as pH and turbidity) were systematically investigated to optimize coagulation efficiency.We determined that the appropriate dosage of mixed sludge was 60 mL/L,effective initial turbidity ranges were below 45.0 NTU,and optimal pH for DOMs and turbidity removal was 6.5-7.0 and 8.0,respectively.Furthermore,by comparing the flocs characteristics with and without recycling sludge,we found that floc structures with sludge were more irregular with average size growth to 64.7 μm from 48.1 μm.Recycling sludge was a feasible and successful method for enhancing pollutants removal,and the more irregular flocs structure after recycling might be caused by breakage of reused flocs and incorporation of powdered activated carbon into larger flocs structure.Applied during the coagulation process,recycling sludge could be significant for the treatment of low temperature and micro-polluted source water.

  20. 废纸制浆造纸封闭循环用水技术路线研究%Technology of Water Closed Cycle in the Recycled Fiber Mills

    衡宝林; 马志华; 张利辉; 李巍; 平贵忠


    以废纸为原料,对生产过程中各用水单元对水质的要求进行分析,通过几种不同废水处理技术对处理后水质变化的影响,采取多种水处理技术相结合,利用适当的分阶段回用水技术手段,设计出废纸制浆造纸封闭循环用水技术路线,在满足企业正常生产对水质需求的前提下,实现废水"零排放"目标.%The main factor affecting papermaking wastewater reuse is its high concentration of total suspended solids which causes plug up ofthe water jet equipment and fell, affecting the production. Because of the high cost of wastewater deep filtration, and increase of productioncosts, most companies are reluctant to construct wastewaler deep filtration facilities, it causes low water reuse rate. Combining usingwastewater deep filtration and optimization of reuse pipe network layout, the waster water quality can meet the requirement of the productionunits, and also can lower the cost of the water deep filtration, it is the effective way to reduce the wastewaler discharge in the recycled fibermills.

  1. Urban mining : Recycling gypsum waste in Vancouver

    McCamley, J.A. [New West Gypsum Recycling Inc., Vancouver, BC (Canada)


    Wallboard manufacturing, construction and deconstruction activities in North America, Europe and Japan result in large amounts of gypsum scrap, which creates an environmental problem. Disposing of this gypsum scrap in landfills often leads to hydrogen sulfide emissions and metallic sulfide groundwater leachates. Europe has dealt with the problem by enacting legislation that will come into effect in July 2005. The legislation is designed to strongly encourage gypsum recycling throughout entire jurisdictions. It is estimated that approximately 10 to 17 per cent of all gypsum used in the wallboard industry ends up as gypsum scrap. In North America, it represents almost one per cent of total waste. Each year in the United States, between 2.5 and 4.5 million tonnes of gypsum scrap are generated, with numbers very similar to Europe (the higher use of brick and concrete in Europe reduces the percentage of total tonnage). Gypsum has been banned from the landfills of British Columbia's Greater Vancouver region, forcing the recycling of all gypsum scrap. Large quantities of gypsum scrap are processed by New West Recycling, a Canadian firm using proprietary technology. This process leads to the re-incorporation of scrap gypsum into new wallboard, with the percentages sometimes reaching as high as 25 per cent. A case study of New West Recycling Inc., located in Langley, British Columbia was presented and recommendations were made concerning how other urban regions can implement gypsum scrap recycling programs modeled after this one. 6 refs.

  2. Application of A/O2 Biofilm Process in Treatment and Reuse of Sewage from Urban Residential Area%生物膜法A/O2工艺处理城市小区污水并回用

    葛会超; 宋彬; 姜广辉; 陈国栋


    介绍了采用生物膜法A/O2工艺处理济南某居民小区生活污水并回用的工程设计和运行情况.运行结果表明,该工艺对COD的去除率达93%,脱氮率达60%.出水水质能稳定达到《城市污水再生利用城市杂用水水质》( GB/T 18920-2002)标准,并全部回用于小区绿化和道路喷洒降尘,实现了小区水资源的高效利用,并减轻了环境负荷.%The design and operation of A/Cr biofilm process for treatment and reuse of sewage from a residential area in Jinan were introduced. The results showed that the removal rates of COD and nitrogen were 93% and 60% respectively. The effluent quality satisfied the requirement of Reuse of Urban Recycling Water—Water Quality Standard for Urban Miscellaneous Water Consumption (GB/T 18920 - 2002). The effluent, as reclaimed water, was used for greening and spraying road, which achieves efficient use of water resources and reduces the environmental load.

  3. Business Plan: Paper Recycling Plant

    Ali, Muhammad; Askari, Sana; Salman, Muhammad; Askari, Sheba


    This Business Plan was written for Business Plan competition organized by Ministry of Youth Affairs Government of Pakistan. It explains the paper recycling business, its pros and cons, cost of paper recycling, plant options and feasibility.

  4. Use of recycled plastics in concrete: A critical review.

    Gu, Lei; Ozbakkaloglu, Togay


    Plastics have become an essential part of our modern lifestyle, and the global plastic production has increased immensely during the past 50years. This has contributed greatly to the production of plastic-related waste. Reuse of waste and recycled plastic materials in concrete mix as an environmental friendly construction material has drawn attention of researchers in recent times, and a large number of studies reporting the behavior of concrete containing waste and recycled plastic materials have been published. This paper summarizes the current published literature until 2015, discussing the material properties and recycling methods of plastic and the influence of plastic materials on the properties of concrete. To provide a comprehensive review, a total of 84 studies were considered, and they were classified into sub categories based on whether they dealt with concrete containing plastic aggregates or plastic fibers. Furthermore, the morphology of concrete containing plastic materials is described in this paper to explain the influence of plastic aggregates and plastic fibers on the properties of concrete. The properties of concretes containing virgin plastic materials were also reviewed to establish their similarities and differences with concrete containing recycled plastics.

  5. 轻油裂解法生产氰化钠工艺中裂解余热利用%Reusing of waste heat from production of sodium cyanide by light oil cracking process

    付艳娥; 刘旭东; 杨迎春


    轻油裂解法生产液体氰化钠过程中,存在大量的余热,一部分热量将原料预热.其余热量通过循环冷却水带出系统后经凉水塔排至环境中,浪费了大量热能.介绍了一种化工生产中的余热回收利用方法.通过对氰化钠车间的工艺、设备及管道进行改造,将氰化钠生产余热替代蒸汽引入厂区供暖及加热设备中,对裂解余热加以利用,并对余热能效进行计算.结果表明,氰化钠余热利用后每年可回收大量热能,节省了煤的用量,减少了环境污染.%There is a lot of waste heat being generated during the production of liquid NaCN by light oil cracking process.Part of heat is used for preheating the raw materials and the remaining heat is taken out of system through recycling cooling water and discharged to the atmosphere by the cold water columns.Therefore, a lot of heat energy is wasted.A reusing method of waste heat in the industrial chemical production was introduced.The generated waste heat could be brought into heating system of factory to replace steam after the reconstruction of technology, equipment, and pipeline in the NaCN workshop.Thus the waste cracking heat could be reused. After calculation of waste heat energy efficiency, a lot of waste heat could be recycled annually. The reconstruction could not only save the coal consumption, but also could reduce environment pollution.

  6. Eco-friendly functionalized superhydrophobic recycled paper with enhanced flame-retardancy.

    Si, Yifan; Guo, Zhiguang


    Recycled paper with superhydrophobicity and flame-retardancy has been demonstrated here due to the synergistic action of dopamine-silica trimethylsilyl modified gel powder and stearic acid modified Mg(OH)2. This multifunctional recycled paper displays great self-cleaning and anti-fouling ability and can be used for oil-water separation. Surprisingly, the absorbed organic can be reused as fuel via simple combustion method for multiple cycles. This work will not only expand the usable range of paper but also ease the energy and environment crisis.

  7. Comparative Analysis of Aluminum and Aluminum Free Recycled Multilayered Beverage Carton Packaging

    László Koltai


    Full Text Available Packaging industry’s raw material producers face continuous challenges of sustainable development. Besides raw material and energy consumption mitigation, essential functions of product protection must be maintained. Re-use and recycling of waste materials must be provided, which is required by the European Union directives as well. Multi-beverage carton recycling is even more difficult due to the use of various materials, due to their diverse properties and qualities. The introduced paper is part of a complex study, which aims to prove that utilizing dry-grinding technology and no additives, semi-finished products can be produced for the packaging industry.


    Nilüfer (NACAR KOÇER


    Full Text Available Collection, transportion, reuse, recycle and proper disposal solid wastes is major environmental problems for local administrations. At present, the most appropriate disposal method of solid waste from the point of view of economy and environment is recycle at the source. In this study the applicability of solid wastes recovery system which is one of the waste disposal methods for student dormitory wastes having economical values has been evaluated in Elazığ. The results of this study were evaluated and benefits of 'seperation of wastes at the source' system for student dormitory in Elazig were discussed and cost analysis of recovered materials was realized.

  9. Material recycling: Presence of chemicals and their influence on the circular economy concept

    Pivnenko, Kostyantyn; Astrup, Thomas Fruergaard


    Linear production concept (extract-convert-use-discard) applied from the times of industrial revolution hascreated a lot of skepticism in the world of limited resources that we live in. As basis to tackle the issue of resource scarcity, circular economy concept has been proposed. The backbone...... of the concept is the pursuit of sustainability through re-use and recycling of products and materials once they have served their purpose. Once such materials (e.g. paper, plastics) are recycled, chemicals that they contain are reintroduced,spread or even accumulate in the newly manufactured products (Figure 1...

  10. Recycling - Danish Waste Management Strategy

    Romann, Anne Funch; Thøgersen, John; Husmer, Lis

    The report challanges recycling as the only waste handling strategy. The tonnes of recycled materials should not be the only goal - it is essential to minimize the waste production and focus on eliminating hazardous materials.......The report challanges recycling as the only waste handling strategy. The tonnes of recycled materials should not be the only goal - it is essential to minimize the waste production and focus on eliminating hazardous materials....

  11. Recycling - Danish Waste Management Strategy

    Romann, Anne Funch; Thøgersen, John; Husmer, Lis

    The report challanges recycling as the only waste handling strategy. The tonnes of recycled materials should not be the only goal - it is essential to minimize the waste production and focus on eliminating hazardous materials.......The report challanges recycling as the only waste handling strategy. The tonnes of recycled materials should not be the only goal - it is essential to minimize the waste production and focus on eliminating hazardous materials....

  12. In-Space Recycler Technology Demonstration

    Hoyt, Rob; Werkheiser, NIKI; Kim, Tony


    In 2014, a 3D printer was installed and used successfully on the International Space Station (ISS), creating the first additively manufactured part in space. While additive manufacturing is a game changing technology for exploration missions, the process still requires raw feedstock material to fabricate parts. Without a recycling capability, a large supply of feedstock would need to be stored onboard, which negates the logistical benefits of these capabilities. Tethers Unlimited, Inc. (TUI), received a Small Business Innovation Research (SBIR) award to design and build the first In-space Recycler for demonstration aboard the ISS in 2017. To fully test this technology in microgravity, parts will be 3D printed, recycled into reusable filament, and then reprinted into new parts. Recycling scrap into printer filament is quite challenging in that a recycler must be able to handle a large variety of possible scrap configurations and densities. New challenges include: dealing with inevitable contamination of the scrap material, minimizing damage to the molecular structure of the plastic during reprocessing, managing a larger volume of hot liquid plastic, and exercising greater control over the cooling/resolidification of the material. TUI has developed an architecture that addresses these challenges by combining standard, proven technologies with novel, patented processes developed through this effort. Results show that the filament diameter achieved is more consistent than commercial filament, with only minimal degradation of material properties over recycling steps. In May 2016, TUI completed fabrication of a flight prototype, which will ultimately progress to the demonstration unit for the ISS as a testbed for future exploration missions. This capability will provide significant cost savings by reducing the launch mass and volume required for printer feedstock as well as reduce waste that must be stored or disposed.

  13. Vehicle recycling regulations

    Smink, Carla


    The number of end-of-life vehicles (ELVs) in the EU is increasing continously. Around 75 percent of an ELV are recyclable metals. The forecast growth in the number of ELVs calls for regulation that aims to minimise the environmental impact of a car. Using Denmark as an example, this article...

  14. Recycled Insect Models

    Rule, Audrey C.; Meyer, Mary Ann


    This article presents an engaging activity in which high school students use a dichotomous key to guide the creation and classification of model insects from recycled plastic lids and containers. Besides teaching the use of a dichotomous key and the effect of evolutionary descent upon groupings of organisms, this activity focuses on an…

  15. Picking Up Artifacts: Storyboarding as a Gateway to Reuse

    Wahid, Shahtab; Branham, Stacy M.; Cairco, Lauren; McCrickard, D. Scott; Harrison, Steve

    Storyboarding offers designers the opportunity to illustrate a visual narrative of use. Because designers often refer to past ideas, we argue storyboards can be constructed by reusing shared artifacts. We present a study in which we explore how designers reuse artifacts consisting of images and rationale during storyboard construction. We find images can aid in accessing rationale and that connections among features aid in deciding what to reuse, creating new artifacts, and constructing. Based on requirements derived from our findings, we present a storyboarding tool, PIC-UP, to facilitate artifact sharing and reuse and evaluate its use in an exploratory study. We conclude with remarks on facilitating reuse and future work.

  16. Correlating Dimensions of Inheritance Hierarchy with Complexity & Reuse

    Nasib S. Gill


    Full Text Available Inheritance is the vital feature of any object oriented software which provides reuse of exiting classes for designing new classes. Higher reuse provides higher productivity and greater quality.Inheritance hierarchy is one of the very important artifacts targeted for measurement of reuse and reusability. Reuse through inheritance hierarchy can be measured from two dimensions- Depth and Breadth. Higher depth and breadth may increase complexity of software which makes the software difficult to understand and maintain. This paper aimed to correlate the depth and breadth of inheritance hierarchy with reuse and complexity of inheritance hierarchy using design oriented metrics.

  17. Mining the physical infrastructure: Opportunities, barriers and interventions in promoting structural components reuse.

    Iacovidou, Eleni; Purnell, Phil


    Construction is the most resource intensive sector in the world. It consumes more than half of the total global resources; it is responsible for more than a third of the total global energy use and associated emissions; and generates the greatest and most voluminous waste stream globally. Reuse is considered to be a material and carbon saving practice highly recommended in the construction sector as it can address both waste and carbon emission regulatory targets. This practice offers the possibility to conserve resources through the reclamation of structural components and the carbon embedded in them, as well as opportunities for the development of new business models and the creation of environmental, economic, technical and social value. This paper focuses on the identification and analysis of existing interventions that can promote the reuse of construction components, and outlines the barriers and opportunities arising from this practice as depicted from the global literature. The main conclusions that derive from this study are that the combination of incentives that promote reuse of construction components and recycling of the rest of the construction materials with the provision of specialised education, skills and training would transform the way construction sector currently operates and create opportunities for new business development. Moreover, a typology system developed based on the properties and lifetime of construction components is required in order to provide transparency and guidance in the way construction components are used and reused, in order to make them readily available to designers and contractors. Smart technologies carry the potential to aid the development and uptake of this system by enabling efficient tracking, storage and archiving, while providing information relevant to the environmental and economic savings that can be regained, enabling also better decision-making during construction and deconstruction works. However, further

  18. Treated wastewater reuse on potato (Solanum tuberosum)

    Battilani, A.; Plauborg, Finn; Andersen, M. N.


    A field experiment was carried out in Northern Italy (Po Valley), within the frame of the EU project SAFIR, to asses the impact of treated wastewater reuse on potato yield, quality and hygiene. The potato crop was drip irrigated and fertigated. Wastewater produced by small communities (≤2000 EI......) was treated by Membrane Bio Reactor (MBR) technology and gravel filter (FTS) during three cropping seasons. Treated wastewater, soil and tubers were analysed for the faecal indicator bacterium E. coli and heavy metals contents. Potato total yield was similar for tap and reused water, while the marketable...... increased by 635 and 765 euro ha-1y-1 with FTS and MBR, respectively. Tubers were not contaminated by E. coli found in treated wastewater used for irrigation. The frequency of heavy metal and nitrate detection in tubers were comparable among water sources, as well as for the average contents. Only for boron...

  19. Calculating Reuse Distance from Source Code

    Narayanan, Sri Hari Krishna; Hovland, Paul


    The efficient use of a system is of paramount importance in high-performance computing. Applications need to be engineered for future systems even before the architecture of such a system is clearly known. Static performance analysis that generates performance bounds is one way to approach the task of understanding application behavior. Performance bounds provide an upper limit on the performance of an application on a given architecture. Predicting cache hierarchy behavior and accesses to main memory is a requirement for accurate performance bounds. This work presents our static reuse distance algorithm to generate reuse distance histograms. We then use these histograms to predict cache miss rates. Experimental results for kernels studied show that the approach is accurate.

  20. Effects of Reusing Gel Electrophoresis and Electrotransfer Buffers on Western Blotting

    Omotola, Oluwabukola B.; Heda, Rajiv P.; Avery, Jamie


    SDS-PAGE and Western blotting are 2 of the most commonly used biochemical methods for protein analysis. Proteins are electrophoretically separated based on their MWs by SDS-PAGE and then electrotransferred to a solid membrane surface for subsequent protein-specific analysis by immunoblotting, a procedure commonly known as Western blotting. Both of these procedures use a salt-based buffer, with the latter procedure consisting of methanol as an additive known for its toxicity. Previous reports present a contradictory view in favor or against reusing electrotransfer buffer, also known as Towbin’s transfer buffer (TTB), with an aim to reduce the toxic waste. In this report, we present a detailed analysis of not only reusing TTB but also gel electrophoresis buffer (EB) on proteins of low to high MW range. Our results suggest that EB can be reused for at least 5 times without compromising the electrophoretic separation of mixture of proteins in an MW standard, BSA, and crude cell lysates. Additionally, reuse of EB did not affect the quality of subsequent Western blots. Successive reuse of TTB, on the other hand, diminished the signal of proteins of different MWs in a protein standard and a high MW membrane protein cystic fibrosis transmembrane-conductance regulator (CFTR) in Western blotting. PMID:27582639

  1. Effect of reuse of polysulfone membrane on oxidative stress during hemodialysis.

    Ramakrishna, P; Reddy, E Prabhakar; Suchitra, M M; Bitla, A R; Rao, P V Srinivasa; Sivakumar, V


    Patients with chronic renal failure, especially those on long-term hemodialysis (HD), have a high incidence of premature cardiovascular disease. Oxidative stress, which occurs when there is an excessive free radical production or low antioxidant level, has recently been implicated as a causative factor in atherogenesis. Hourly changes in malondialdehyde (MDA) and antioxidant enzymes, vitamins, lipid profile and ferric reducing ability of plasma (FRAP) were studied with the first use and immediate subsequent reuse of polysulfone dialysis membrane in 27 patients on regular HD treatment. Data were corrected for hemoconcentration and standardized to measure the rate of change. Increase in MDA and erythrocyte catalase along with decrease in plasma vitamin E and FRAP levels and no change in glutathione peroxidase levels were observed as a result of both fresh and reuse dialysis. These findings indicate a net oxidative stress in both fresh as well as dialyzer reuse sessions. There was no significant change in oxidative stress in both fresh and reuse sessions. The oxidative stress with reuse dialysis was less when compared to first use dialysis, but the difference was not statistically significant.

  2. Reuse and Upcycling of Municipal Waste for ZEB Envelope Design in European Urban Areas

    Elisa Pennacchia


    Full Text Available Building energy efficiency and urban waste management are two focal issues for improving environmental status and reducing greenhouse gas emissions. The main aim of this paper is to compare economic costs of new building envelope structures designed by authors reusing and upcycling municipal waste in order to decrease energy demand from the building sector and, at the same time, improve eco-friendly waste management at the local scale. The reuse of waste for building envelope structures is one of the main principles of the Earthship buildings model, based on the use of passive solar principles in autonomous earth-sheltered homes. This Earthship principle has been analyzed in order to optimize buildings’ energy performance and reuse municipal waste for new building envelope structures in urban areas. Indeed, the elaborated structures have been designed for urban contexts, with the aim of reuse waste coming from surrounding landfills. The methods include an analysis of thermal performance of urban waste for designing new building envelope structures realized by assembling waste and isolating materials not foreseen in Earthship buildings. The reused materials are: cardboard tubes, automobile tires, wood pallets, and plastic and glass bottles. Finally, comparing economic costs of these new building envelope structures, the obtained results highlight their economic feasibility compared to a traditional structure with similar thermal transmittance.

  3. Energetic aspects and opportunities for reusing water on offshore platforms in Campos Basin, Brazil

    Victor Magalhães Duarte


    Full Text Available In the drilling and production of oil at sea, a large quantity of potable water used is most commonly transported to oil platforms using offshore supply vessels (OSVs. Sea water desalination is used as well, but only in a few oil platforms. To minimize energy consumption, water supply options were studied. The desalination of seawater and the reusing of streams of grey water and black water were evaluated and compared with the characteristics of the current supply via OSVs. In both desalination and OSV water supply options an electrolytic wastewater treatment plant is used. The objective of this study was to analyze the current situation regarding water supply on offshore platforms located in the Campos Basin, Rio de Janeiro, Brazil, and to propose measures to take advantage of opportunities to reuse water and reduce energy expenditure. Two alternative scenarios were developed that involved the reuse of water that comes from the effluent of a biological wastewater treatment plant (WWTP. Information on the logistics of supplying water to platforms was obtained through direct consultation with companies and sources in the literature. The results show that annual energy consumption (uptake, treatment, transportation, use and waste water treatment of water on offshore platforms is currently 1.89 GWh, and that a reduction of 1.8 GWh of the energy consumed can be achieved using advanced reuse treatments. Energy consumption in the water reuse treatment is more competitive than those of transport by OSVs or seawater desalination.

  4. Beyond the throwaway society: A life cycle-based assessment of the environmental benefit of reuse.

    Castellani, Valentina; Sala, Serenella; Mirabella, Nadia


    In the context of a circular economy, sustainable consumption is often seen as the antithesis of current consumption patterns, which have led to the definition of the so-called throwaway society. Reuse may provide a preferred alternative to other waste management options, because it promotes resource efficiency and may significantly reduce environmental impacts. To appraise the environmental benefits related to reuse of goods, a methodology adopting life cycle assessment (LCA) has been developed. A standardized procedure has been developed, identifying reference products within product category subject to reuse, and collecting reliable inventory data as a basis for calculating environmental impact through LCA. A case study on a second-hand shop is presented, and the avoided impacts are quantified. Inventory data were taken both from the literature and directly from sales and surveys submitted to customers. The results are presented, highlighting: 1) for each product category, the average avoided impacts for 1 unit of reused product considered; and 2) for the overall activities of the second-hand shop, the cumulative avoided impacts in 1 yr. In the case study, the higher contribution to avoided impacts comes from the apparel sector, due to the high amount of items sold, followed by the furniture sector, because of the high amount of environmental impacts avoided by the reuse of each single item. © 2015 SETAC.

  5. The profitability drivers in packaging materials reuse for manufacturers in business to business environments

    Larsen, Samuel; Deleuran, Brian; Jacobsen, Peter

    ’s theoretical basis is the RSC literature’s business perspective formulated by Guide and Van Wassenhove. Findings – The drivers of profitability in packaging materials reuse are 1) the amount of avoided costs of purchasing new packaging materials, 2) the firm’s ability to reduce costs of reverse logistics......Purpose –The purpose of this paper is to explore the profitability drivers for a firm’s operation of a reverse supply chain (RSC) that takes back and reuses packaging materials. Results apply specifically to original equipment manufacturers (OEMs) in business to business environments. Design...

  6. Hygiene Aspects of Greywater and Greywater Reuse

    Ottosson, Jakob


    Greywater is domestic household wastewater without inputfrom the toilet, i.e. wastewater from sinks, the shower,washing machine and dishwasher in a home. Source separation ofgreywater can be a strategy to enhance recirculation of plantnutrients and/or improve water use. The risk for transmissionof disease when reusing greywater is largely dependent on thecross-contamination by faeces. High levels of faecalindicators, mainly thermotolerant coliform bacteria, have beenreported in greywater, ind...

  7. Electrodialysis and water reuse novel approaches

    Rodrigues, Marco; Ferreira, Jane


    This book presents novel techniques to evaluate electrodialysis processes, to synthesize ionic membranes and to characterize their properties. It shows the potential use of membrane process to the treatment of effluents generated in many industrial sectors such as refineries, leather industries, mining and electroplating processes. The book is based on the results obtained by the author's research group during the past decade. It is useful for students, researchers and engineers interested in membrane technologies for water reuse.

  8. On-site greywater treatment and reuse in multi-storey buildings.

    Friedler, E; Kovalio, R; Galil, N I


    The paper presents a study of a pilot plant treating light greywater for seven flats. The pilot plant combines biological treatment (RBC) with physicochemical treatment (sand filtration and disinfection). The pilot plant produced effluent of excellent quality, meeting the urban reuse quality regulations, and was very efficient in TSS turbidity and BOD removal: 82%, 98% and 96%, respectively. COD removal was somewhat lower (70-75%) indicating that the greywater may contain slowly-biodegradable organics. The RBC (attached growth biological system) was able to retain most of the solids as a result of bioflocculation; further it was proven to have very stable and reliable performance. Faecal coliforms and heterotrophic reductions were very high (100% and 99.99%, respectively) producing effluent that also met drinking water standards. The combination of low organic matter, nutrients and microbial indicators reduces the regrowth and fouling potentials in the reuse system, thus ensuring safe reuse of the treated greywater for toilet flushing.

  9. Component Reuse in Iterative Solvers for the Solution of Fuzzy Partial Differential Equations

    Corveleyn, Samuel; Vandewalle, Stefan


    We consider elliptic partial differential equations with an uncertain diffusion parameter, where the uncertainty is modeled by fuzzy numbers or a fuzzy field. Our aim is to efficiently compute the fuzzy characteristics of the solution to the fuzzy equation. Using the so-called α-cut approach, it is possible to reformulate the fuzzy problem as a long sequence of global optimisation problems. Function and gradient evaluations within these optimisation problems, differ from each other through a possibly small change in one or more of the partial differential equation parameters. In order to reduce the computational complexity of the optimisation problems we consider component reuse in iterative solvers. We concentrate in particular on the reuse of the setup phase in an algebraic multigrid strategy and on reuse of initial approximations.


    Faissal AZIZ


    Full Text Available In the arid and semiarid areas, the availability and the management of irrigation water have become priorities of great importance. The successive years of drought, induced by climate change and population growth, increasingly reduced the amount of water reserved for agriculture. Consequently, many countries have included wastewater reuse as an important dimension of water resources planning. In the more arid areas wastewater is used in agriculture, releasing high resource of water supplies. In this context, the present work is a review focusing the reuse of treated wastewater in agriculture as an important strategy for solving water deficit problems in arid areas. Much information concerning the wastewater reuse in different regions of the world and in Morocco, the different wastewater treatment technologies existing in Morocco were discussed. The review focused also the fertilizing potential of wastewater in agriculture, the role of nutrients and their concentrations in wastewater and their advantages effects on plant growth and yield.

  11. Recycling of typical supercapacitor materials.

    Vermisoglou, Eleni C; Giannouri, Maria; Todorova, Nadia; Giannakopoulou, Tatiana; Lekakou, Constantina; Trapalis, Christos


    A simple, facile and low-cost method for recycling of supercapacitor materials is proposed. This process aims to recover some fundamental components of a used supercapacitor, namely the electrolyte salt tetraethyl ammonium tetrafluoroborate (TEABF4) dissolved in an aprotic organic solvent such as acetonitrile (ACN), the carbonaceous material (activated charcoal, carbon nanotubes) purified, the current collector (aluminium foil) and the separator (paper) for further utilization. The method includes mechanical shredding of the supercapacitor in order to reduce its size, and separation of aluminium foil and paper from the carbonaceous resources containing TEABF4 by sieving. The extraction of TEABF4 from the carbonaceous material was based on its solubility in water and subsequent separation through filtering and distillation. A cyclic voltammetry curve of the recycled carbonaceous material revealed supercapacitor behaviour allowing a potential reutilization. Furthermore, as BF4(-) stemming from TEABF4 can be slowly hydrolysed in an aqueous environment, thus releasing F(-) anions, which are hazardous, we went on to their gradual trapping with calcium acetate and conversion to non-hazardous CaF2.

  12. Fixed-base recycling of contaminated metals in the commercial market

    Loiselle, V. (Quadrex Recycle Center, Oak Ridge, TN (United States))


    Since the establishment of the first fixed-base commercial decontamination facility in 1982, commercial processors have cleaned and recycled more than 120 million lb of metals for productive reuse. This represents enough metal to duplicate the Eiffel Tower eight times. This paper examines the economic conditions that led to the foundation of this industry and the types of decontamination technology that have been successfully employed by the processors.

  13. Wastewater Reuse for Agriculture: Development of a Regional Water Reuse Decision-Support Model (RWRM) for Cost-Effective Irrigation Sources.

    Tran, Quynh K; Schwabe, Kurt A; Jassby, David


    Water scarcity has become a critical problem in many semiarid and arid regions. The single largest water use in such regions is for crop irrigation, which typically relies on groundwater and surface water sources. With increasing stress on these traditional water sources, it is important to consider alternative irrigation sources for areas with limited freshwater resources. One potential irrigation water resource is treated wastewater for agricultural fields located near urban centers. In addition, treated wastewater can contribute an appreciable amount of necessary nutrients for plants. The suitability of reclaimed water for specific applications depends on water quality and usage requirements. The main factors that determine the suitability of recycled water for agricultural irrigation are salinity, heavy metals, and pathogens, which cause adverse effects on human, plants, and soils. In this paper, we develop a regional water reuse decision-support model (RWRM) using the general algebraic modeling system to analyze the cost-effectiveness of alternative treatment trains to generate irrigation water from reclaimed wastewater, with the irrigation water designed to meet crop requirements as well as California's wastewater reuse regulations (Title 22). Using a cost-minimization framework, least-cost solutions consisting of treatment processes and their intensities (blending ratios) are identified to produce alternative irrigation sources for citrus and turfgrass. Our analysis illustrates the benefits of employing an optimization framework and flexible treatment design to identify cost-effective blending opportunities that may produce high-quality irrigation water for a wide range of end uses.

  14. Sewer-mining: A water reuse option supporting circular economy, public service provision and entrepreneurship.

    Makropoulos, C; Rozos, E; Tsoukalas, I; Plevri, A; Karakatsanis, G; Karagiannidis, L; Makri, E; Lioumis, C; Noutsopoulos, C; Mamais, D; Rippis, C; Lytras, E


    Water scarcity, either due to increased urbanisation or climatic variability, has motivated societies to reduce pressure on water resources mainly by reducing water demand. However, this practice alone is not sufficient to guarantee the quality of life that high quality water services underpin, especially within a context of increased urbanisation. As such, the idea of water reuse has been gaining momentum for some time and has recently found a more general context within the idea of the Circular Economy. This paper is set within the context of an ongoing discussion between centralized and decentralized water reuse techniques and the investigation of trade-offs between efficiency and economic viability of reuse at different scales. Specifically, we argue for an intermediate scale of a water reuse option termed 'sewer-mining', which could be considered a reuse scheme at the neighbourhood scale. We suggest that sewer mining (a) provides a feasible alternative reuse option when the geography of the wastewater treatment plant is problematic, (b) relies on mature treatment technologies and (c) presents an opportunity for Small Medium Enterprises (SME) to be involved in the water market, securing environmental, social and economic benefits. To support this argument, we report on a pilot sewer-mining application in Athens, Greece. The pilot, integrates two subsystems: a packaged treatment unit and an information and communications technology (ICT) infrastructure. The paper reports on the pilot's overall performance and critically evaluates the potential of the sewer-mining idea to become a significant piece of the circular economy puzzle for water. Copyright © 2017 Elsevier Ltd. All rights reserved.

  15. Flows of engineered nanomaterials through the recycling process in Switzerland

    Caballero-Guzman, Alejandro; Sun, Tianyin; Nowack, Bernd, E-mail:


    Highlights: • Recycling is one of the likely end-of-life fates of nanoproducts. • We assessed the material flows of four nanomaterials in the Swiss recycling system. • After recycling, most nanomaterials will flow to landfills or incineration plants. • Recycled construction waste, plastics and textiles may contain nanomaterials. - Abstract: The use of engineered nanomaterials (ENMs) in diverse applications has increased during the last years and this will likely continue in the near future. As the number of applications increase, more and more waste with nanomaterials will be generated. A portion of this waste will enter the recycling system, for example, in electronic products, textiles and construction materials. The fate of these materials during and after the waste management and recycling operations is poorly understood. The aim of this work is to model the flows of nano-TiO{sub 2}, nano-ZnO, nano-Ag and CNT in the recycling system in Switzerland. The basis for this study is published information on the ENMs flows on the Swiss system. We developed a method to assess their flow after recycling. To incorporate the uncertainties inherent to the limited information available, we applied a probabilistic material flow analysis approach. The results show that the recycling processes does not result in significant further propagation of nanomaterials into new products. Instead, the largest proportion will flow as waste that can subsequently be properly handled in incineration plants or landfills. Smaller fractions of ENMs will be eliminated or end up in materials that are sent abroad to undergo further recovery processes. Only a reduced amount of ENMs will flow back to the productive process of the economy in a limited number of sectors. Overall, the results suggest that risk assessment during recycling should focus on occupational exposure, release of ENMs in landfills and incineration plants, and toxicity assessment in a small number of recycled inputs.

  16. Recycling : An essential enterprise for resource conservation and sustainable development

    Puvvada, G.V.K.; Sridhar, R.; Lakshmanan, V.I. [Process Research ORTECH, Mississauga, ON (Canada)


    The demand for both ferrous and non-ferrous metals is expected to increase despite the fact that ore reserves contain lower grade ore and are highly complex. The situation increases the pressure to adopt conservation measures such as recycling and reducing waste generation. This paper examined the recycling of essential metals such as copper, aluminum, iron and steel, as well as associated issues. It included a section on the importance of innovation in the recycling industry if it is to remain viable from an economic and environmental perspective. To better illustrate their discussion, the authors provided examples of several case studies that are either completed or underway at Process Research ORTECH Inc. The case studies dealt with the recycling of zinc from steel mill dust (EAF dusts), recycling of fly ash (innovative TORBED{sup TM} reactor), and the recovery of water from textile effluents (reverse osmosis, and mechanical vapor recompression evaporators). 15 refs., 3 tabs., 1 fig.

  17. Feasibility assessment of remanufacturing, repurposing, and recycling of end of vehicle application lithium-ion batteries

    Meaghan Foster


    .Practical implications: Lithium-ion batteries are a major cost component of an electric vehicle and a plug-in electric hybrid vehicle. One way of reducing this cost is to develop additional uses for such batteries at the end of vehicle application as well as an environmentally friendly method for recycling battery components as an alternative to destruction and disposal.Social implications: The use of lithium-ion batteries in vehicles as opposed to fossil fuels is consistent with the guiding principles of sustainability in helping to meet current needs without compromising the needs and resources of future generations. Reusing entire lithium-ion batteries or recycling the materials of which they are composed further reinforces the sustainability of the use of lithium-ion batteries.Originality/value: The results show that a sufficient number of batteries to support remanufacturing, repurposing, and recycling will be available. Remanufacturing is shown to be economically feasible. Repurposing is shown to be feasible under reasonable conditions on design and development. Recycling will likely not be economically feasible in isolation but will eventually be necessary for all batteries. Thus, the costs of recycling must be assigned to original vehicle use, remanufacturing and repurposing applications Furthermore, this effort integrates information from a wide variety of sources to show the economic feasibility of end of vehicle application uses for lithium-ion batteries.

  18. Leaching assessment of concrete made of recycled coarse aggregate: physical and environmental characterisation of aggregates and hardened concrete.

    Galvín, A P; Agrela, F; Ayuso, J; Beltrán, M G; Barbudo, A


    Each year, millions of tonnes of waste are generated worldwide, partially through the construction and demolition of buildings. Recycling the resulting waste could reduce the amount of materials that need to be manufactured. Accordingly, the present work has analysed the potential reuse of construction waste in concrete manufacturing by replacing the natural aggregate with recycled concrete coarse aggregate. However, incorporating alternative materials in concrete manufacturing may increase the pollutant potential of the product, presenting an environmental risk via ground water contamination. The present work has tested two types of concrete batches that were manufactured with different replacement percentages. The experimental procedure analyses not only the effect of the portion of recycled aggregate on the physical properties of concrete but also on the leaching behaviour as indicative of the contamination degree. Thus, parameters such as slump, density, porosity and absorption of hardened concrete, were studied. Leaching behaviour was evaluated based on the availability test performed to three aggregates (raw materials of the concrete batches) and on the diffusion test performed to all concrete. From an environmental point of view, the question of whether the cumulative amount of heavy metals that are released by diffusion reaches the availability threshold was answered. The analysis of concentration levels allowed the establishment of different groups of metals according to the observed behaviour, the analysis of the role of pH and the identification of the main release mechanisms. Finally, through a statistical analysis, physical parameters and diffusion data were interrelated. It allowed estimating the relevance of porosity, density and absorption of hardened concrete on diffusion release of the metals in study. Copyright © 2014 Elsevier Ltd. All rights reserved.

  19. The psychology of recycled water: Factors predicting disgust and willingness to use

    Wester, Julia; Timpano, Kiara R.; ćek, Demet; Broad, Kenneth


    Water recycling is increasingly recognized as a critical strategy to maintain sustainable water supplies. Yet public acceptance of water recycling often lags behind. It is unclear the degree to which individuals are aware of the role of disgust in their decisions about recycled water, how important anticipated disgust is to willingness to use when controlling for other factors, and what the most effective method of presenting information about water recycling would be to decrease disgust reactions and increase willingness to use. We used a two-pronged approach, combining a survey with open-ended and psychometric measures with an experimental manipulation, in a U.S., web-based sample (N = 428). Only 2% of participants self-identified disgust as important to their decisions about recycled water. When measured directly using a Likert scale, however, anticipated disgust was the strongest predictor of willingness to use recycled water when controlling for individual differences that have been shown to impact willingness to use, including a subscale of individual pathogen disgust sensitivity. Finally, participants were exposed to an educational brochure about water reuse framed either affectively or cognitively or were shown a simple, neutral definition. Exposure to either the affectively or cognitively framed brochures lowered anticipated disgust, but did not significantly affect willingness to use recycled water compared to the neutral condition.

  20. Current and Prospective Li-Ion Battery Recycling and Recovery Processes

    Heelan, Joseph; Gratz, Eric; Zheng, Zhangfeng; Wang, Qiang; Chen, Mengyuan; Apelian, Diran; Wang, Yan


    The lithium ion (Li-ion) battery industry has been growing exponentially since its initial inception in the late 20th century. As battery materials evolve, the applications for Li-ion batteries have become even more diverse. To date, the main source of Li-ion battery use varies from consumer portable electronics to electric/hybrid electric vehicles. However, even with the continued rise of Li-ion battery development and commercialization, the recycling industry is lagging; approximately 95% of Li-ion batteries are landfilled instead of recycled upon reaching end of life. Industrialized recycling processes are limited and only capable of recovering secondary raw materials, not suitable for direct reuse in new batteries. Most technologies are also reliant on high concentrations of cobalt to be profitable, and intense battery sortation is necessary prior to processing. For this reason, it is critical that a new recycling process be commercialized that is capable of recovering more valuable materials at a higher efficiency. A new technology has been developed by the researchers at Worcester Polytechnic Institute which is capable of recovering LiNi x Mn y Co z O2 cathode material from a hydrometallurgical process, making the recycling system as a whole more economically viable. By implementing a flexible recycling system that is closed-loop, recycling of Li-ion batteries will become more prevalent saving millions of pounds of batteries from entering the waste stream each year.