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741	Wiederverwendungsstudie I - Kommunale Aufgaben und Refinanzierung: Reichweite und Refinanzierung von Aktivitäten der öffentlich-rechtlichen Entsorgungsträger bei der Vorbereitung zur Wiederverwendung von Bechtolsheim, Caroline, Charlier, Isabelle-Konstanze 14 August 2018 (has links) Im Zuge einer Prüfung der öffentlich-rechtlichen Entsorgungsträger (örE) sollen deren Rechte und Pflichten mit Maßnahmen zur Förderung der Wiederverwendung und Abfallvermeidung, insbesondere durch Information und Beratung der Abfallbesitzer untersucht werden, was Möglichkeiten der Refinanzierung über Gebühren einschließt. Viele Gegenstände, die von ihrem Besitzer einer Abfallsammlung zugeführt werden, sind noch „brauchbar“ und eignen sich für eine unmittelbare weitere Verwendung, könnten zumindest aber mit geringem Aufwand dafür hergerichtet werden. Es werden rechtliche Ansätze ausgelotet, um das Potenzial für eine Wiederverwendung von Erzeugnissen und Bestandteilen von Erzeugnissen zu erhöhen. info:eu-repo/classification/ddc/333.7 ddc:333.7
742	Regeneration of Cathode Materials from Used Li-ion Batteries via a Direct Recycling Process Zurange, Hrishikesh 12 1900 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / With the exponential rise in manufacturing and usage of Li-ion batteries (LIBs) in the last decade, a huge quantity of spent LIBs is getting scrapped every year. Along with the efforts to making more capable and safer batteries over the last three decades, there is an immediate need for recycling these scrapped batteries. Most of these batteries typically use lithium manganese oxide (LMO), lithium cobalt oxide (LCO), lithium iron phosphate (LFP), and lithium nickel manganese cobalt oxide (NMC) cathode chemistries, and developing a technique towards regenerating these cathodes can ensure huge economic and environmental benefits for the present and future. This research focuses on a set of direct regeneration techniques with the goal of regenerating used cathode materials to be reused in LIBs. Used Apple iPad2 batteries with LCO chemistry and Nissan LEAF batteries with a combination of LMO-NMC chemistry are selected for this research. The scope of research can be divided into two parts as liberation/separation of cathode material and regeneration of liberated cathode. The liberation/separation process is carried out with the aid of ultrasonication and organic solvents with the objective being keeping the morphology and chemical composition intact for a better quality of the material. The regeneration process uses a hydrothermal technique with variations of parameters. 1:1 and 1:5 molar ratios between cathode material and a lithium lithiation agent are chosen to understand the effects of the molar ratio on cathode regeneration. In addition, the effects of processing solution (water vs. a solvent) are examined by replacing water with TEG. The effects of heat treatment on cathode regeneration are also investigated by observing phase changes of materials at different temperatures. Lithium-ion Battery Degradation Recycling Of Lithium-ion Batteries Regeneration Of Lithium-ion Batteries Lithium-ion Batteries Hydrothermal Synthesis Direct Recycling
743	Využití R-materiálu v asfaltových směsích s vysoce modifikovaným pojivem (HiMA) / Use of R-material in asphalt mixtures with highly modified binder (HiMA) Christ, Roman Unknown Date (has links) The subject of this diploma thesis is paid attention to the influence of different dosing of R-material containing unmodified asphalt on the properties of asphalt concrete for abrasive layers (AC011 +) bonded with polymer highly modified asphalt (binder type HiMA). The properties of asphalt mixtures will be evaluated by means of the stiffness modulus test and the test of low-temperature properties by a uniaxial tensile test.
744	A STUDY OF THREE COMMUNITIES’ COMMUNICATION EFFORTSTO ENCOURAGE RECYCLING IN A CHANGING MEDIA LANDSCAPE Bellman, Sacha DeVroomen 08 May 2013 (has links) No description available. Communication Environmental Studies Technical Communication Recycling technical communication rhetorical analysis textual analysis visual analysis recycling participation Web sites social media Rumpke Colerain Township New York Hamilton, Ohio
745	Environmental consequences of mixed plastic recycling : Life cycle assessment of FAIR plastic system / Miljökonsekvenser av plaståtervinning : Livscykelanalys av FAIR plastsystem Sivard, Amanda January 2022 (has links) Global environmental change is a concern in society, and companies sees the importance of more environmentally- friendly practices. Consequently, the need for environmental information is becoming more and more important. A common tool for strategic environmental decisions is life cycle analysis (LCA), which is recognized for its robustness in assessing the environmental performance of products systems. This study reports on a streamlined consequential life cycle analysis (CLCA) commissioned by the organisation Ragnsells, and to analyse the strenghts, weaknesses, opportunities and threats (SWOT) for applying this approach to similar projects. The initial LCA is conducted on FAIR plastic recycling, an innovation provided by Ragnsells AB. The geographical scope of the project is delimited to Denmark in 2022. Moreover, as CLCA has been applied, the used allocation has been the system expansion method. Data have been collected from direct contact with stakeholders in Denmark, literature and CLCA databases. The results of the study indicate that demanding FAIR plastic recycling is favourable from a climate change perspective, but detrimental in terms of e.g. land change. Furthermore, the lack of available data limits the study and shows need of further research. LCA applied within the organisation can increase awareness, simplify decision-making and provide comprehensive environmental information, despite the significant time and resources needed. Furthermore, increasing research within the field presents opportunities to improve quality aspects that can lead to better environmental performance and enhances collaboration and communication. However, the need for environmental information is threatened by misleading environmental claims, and could be minimized by increasing knowledge about underlying assumptions and uncertainties in LCA studies. / Miljöförändringen erkänns alltmer som strategiskt viktigt i samhället och allt fler företag ser vikten av att ställa om till mer miljövänliga tekniker. Följaktligen ökar efterfrågan på miljöinformation snabbt. Ett vanligt verktyg för strategiska miljöbeslut är livscykelanalys (LCA), som används för att bedöma miljöprestanda hos produkter och tjänster. Denna rapport syftar till att göra en initial LCA inom organisationen Ragnsells, och att analysera styrkor, svagheter, möjligheter och hot (SWOT-analys) för att tillämpa liknande projekt. Den initiala studien är gjord på FAIR plaståtervinning, en innovation från Ragnsells AB. Projektets geografiska omfattning är avgränsad till Danmark och genomförs från tidpunkten 2022. Eftersom en konsekvens-LCA (cLCA) har tillämpats har allokeringsmetoden systemexpansion använts. Data har samlats in från direkt från kontakt med intressenter i Danmark, litteratur och CLCA-databaser. Resultaten från studien visar att krav på FAIR- plast är fördelaktigt ur ett klimatförändringsperspektiv. Däremot rekommenderas insatser för att analysera och vid behov minska negativa effekter. Dessutom tyder bristen på tillgängliga data på behovet av ytterligare analyser. Analysen visar att LCA inom organisationen kan öka allmänhetens medvetenhet, förenkla beslutsfattande och ge omfattande miljöinformation. Samtigit finns svagheter med den tid och de resurser som krävs för att genomföra en LCA. Vidare visar ökande forskning inom området möjligheter till att förbättra kvalitetsaspekter för bättre miljöprestanda samt förbättrad samverkan och kommunikation. Behovet av miljöinformation hotas dock av vilseledande miljöpåståenden, och skulle kunna minimeras genom att öka kunskapen om underliggande antaganden och osäkerheter inom LCA. LCA CLCA plastic recycling mechanical recycling LDPE HDPE PP PET LCA CLCA plaståtervinning mekanisk plaståtervinning FAIR plastic LDPE HDPE PP PET Engineering and Technology Teknik och teknologier
746	A Preliminary Framework For The Selection Of Materials & Manufacturing Processes For Lunar Surface Systems Assuming Integration To A Space Circular Economy Sanchez, Gabriel January 2022 (has links) In-situ resource utilization and in-situ manufacturing are being actively pursued as ways to enhance the development of human activities in space. However, the re-purpose of space systems through processes like recycling, re-manufacturing, and re-use, has not received the attention it deserves given its potential to reduce the waste generated by human activities in space, improve the sustainability of space habitats, and reduce the environmental impact on Earth of human activities in space. This dissertation explores the available life cycle analysis methodologies in order to understand how the industry treats and measures re-purposability, and what re-purposing enabling technologies are available or under development, and proposes the use of the embodied energy and derived metrics to: quantify the waste generated by a space system when reaches its end of life, how re-purposable a space system is, and how valuable the outputs of the re-purposing process are for the habitat were the system is being processed. This data can then used to provide feedback regarding manufacturing process and material selection for the design, enabling a systems architect to optimize it with re-purposability in mind. This Design to Re-purpose methodology (DTR) is tested through the analysis of selected components of an Lunar Habitat design from Hassell Studios, to the extend possible given the early state of the design, and with some assumptions regarding the expected repurposing technologies available. It demonstrated that performs as expected for the scenario provided, and yielded useful material selection feedback, including how the value of the re-purposing output material can infuence the design to optimize its re-purposability and the subsequent value it provides to the habitat. Further development of this methodology is necessary, as well as additional testing especially considering scenarios where the initial system is not built on Earth, for which a preliminary road map was laid down. Embodied Energy Space Habitat Re-Purposability Material Value Sustainability Space Recycling Design for Recycling Design to Repurpose Övrig annan teknik
747	The impacts of lead recycling activities to human health and environment in Dong Mai craft village, Hung Yen, Vietnam Phan, Thi Phuong, Pham, Thi Thao Trang, Nguyen, Khanh Linh, Nguyen, Thi Kim Oanh, Ha, Thi Thu Thuy, Nguyen, Kieu Bang Tam, Chu, Thi Thu Ha 07 January 2019 (has links) Lead (Pb) recycling activities in Dong Mai village, Chi Dao commune, Van Lam district, Hung Yen province have been taking place for more than 30 years. The development of recycling activities contributed to the improvement of the local economics. However, along with economic development, Dong Mai craft village is facing to serious pollution. Soil, air and water polluted by lead (Pb) caused food containing Pb at higher levels than allowed limit from 20 to 40 times. The pollution had the bad effect on human health in this village. The investigation results showed that 100 % of employee who participated on melting lead and 63.5 % of local children were poisoned by Pb. Besides, the local people got diseases relating to skin, eyes, etc. This situation requires the provincial authorities to find immediate solutions to reduce the impacts of Pb recycling activities to environment and human. / Hoạt động tái chế chì của thôn Đông Mai, xã Chỉ Đạo, huyện Văn Lâm, tỉnh Hưng Yên đã diễn ra hơn 30 năm nay. Sự phát triển của nghề tái chế đã làm góp phần cải thiện kinh tế của địa phương. Tuy nhiên, cùng với sự phát triển kinh tế, làng nghề Đông Mai đã và đang đối mặt với ô nhiễm môi trường nghiêm trọng. Môi trường đất, nước không khí bị ô nhiễm bởi chì (Pb) dẫn đến thực phẩm nhiễm chì ở hàm lượng cao hơn mức cho phép từ 20- 40 lần. Sự ô nhiễm gây ra những ảnh hưởng xấu tới sức khỏe của người dân làng nghề. Kết quả điều tra cho thấy 100% công nhân tham gia nấu chì và 63.5% trẻ em địa phương bị nhiễm độc chì. Bên cạnh đó, người dân địa phương còn bị mắc của các loại bệnh ngoài da, bệnh về mắt, …. Tình trạng này đòi hỏi chính quyền địa phương phải tìm ra giải pháp khẩn cấp để giảm thiểu tác động của những hoạt động tái chế chì tới môi trường và con người. info:eu-repo/classification/ddc/363.7 ddc:363.7
748	Status of heavy metal (Pb, Cd) pollution in agricultural soil in Dong Mai lead recycling craft village in Hung Yen, Vietnam Pham, Thi Thao Trang, Phan, Thi Phuong, Nguyen, Khanh Linh, Nguyen, Thi Kim Oanh, Ha, Thi Thu Thuy, Ho, Thi Oanh, Nguyen, Kieu Bang Tam, Nguyen, Thi My Trang, Do, Thi Thu Trang, Nguyen, Thi Hue, Vu, Van Tu, Chu, Thi Thu Ha 07 January 2019 (has links) The newly planned lead recycling zone in Dong Mai village has been operating with primary treatment systems using lime to neutralize acid in wastewater is a good sign for the local environment, yet the real problem that needs further attention and proper solutions is the accumulation of heavy metals typically lead (Pb) and cadmium (Cd) in agricultural land near the old Pb recycling area. In this context, 27 soil samples were collected and analyzed by AAS method to assess the situation and the quality of the agricultural soil. The results showed that the levels of Cd in the soil were still in acceptable level according to National Regulation. However, the lead contents in all of the soil samples exceeded National Regulation. The level of Pb pollution in soil was inversely proportional to the distance with old lead melting zone. The lead content in the soil sample collected at the distance of 50 m radius to the old melting zone reached 7070 ppm, which was 100 times higher than the allowable value of National Regulation. / Khu tái chế chì mới tại thôn Đông Mai đã được quy hoạch và đi vào hoạt động cùng hệ thống xử lý sơ bộ với vôi bột là một tín hiệu đáng mừng cho môi trường nơi đây, nhưng vấn đề cần quan tâm và giải quyết triệt để là sự tích lũy một lượng lớn kim loại nặng điển hình là chì (Pb) và cađimi (Cd) trong đất nông nghiệp gần những khu tái chế chì cũ. 27 mẫu đất đã được thu thập và phân tích bằng phương pháp AAS để đánh giá tình trạng, chất lượng đất nông nghiệp tại đây. Kết quả cho thấy hàm lượng Cd trong đất vẫn trong mức độ cho phép theo Quy chuẩn quốc gia. Tuy nhiên, 100% các mẫu đất đều có hàm lượng chì vượt quá mức cho phép theo Quy chuẩn quốc gia. Mức độ ô nhiễm Pb trong đất tỷ lệ nghịch với khoảng cách tới khu lò nấu chì cũ. Mẫu đất cách 50 m so với khu vực lò cũ có hàm lượng chì lên tới 7070 ppm, gấp hơn 100 lần so với Quy chuẩn quốc gia. info:eu-repo/classification/ddc/363.7 ddc:363.7
749	Life cycle assessment of feedstock recycling processes Keller, Florian 06 February 2024 (has links) This study examines the ecological impact of exemplary processes for the feedstock recycling of waste fractions. It is shown that the material process efficiency of gasification and pyrolysis has a low impact on the greenhouse gas balance in the short term, but that high product yields are necessary in the long term to avoid an increasing climate impact. In a systemic context, different process routes of syngas and pyrolysis oil utilization are compared, and their efficiency and quantitative potential for greenhouse gas reduction compared to electricity-based alternatives of process direct heating of conventional processes and electrolysis-based process chains are classified. It is shown that direct utilization options with few process steps are ecologically more efficient. Feedstock recycling shows a similar reduction potential to direct heating, while the use of electrolysis-based process chains is inefficient but necessary to achieve systemic climate neutrality.:1. Introduction and outline 1 2. Life cycle assessment methodology 5 2.1. Previous LCA investigation on feedstock recycling 7 2.2. Assessment scope 9 2.3. Attributional vs. consequential LCI modelling 11 2.4. Inventory modelling consistency 12 2.5. Prospective technology assessment 13 2.6. Conclusions for the applied methodology 14 3. Process description and modelling 16 3.1. Feedstock recycling technologies 18 3.1.1. Gasification 18 3.1.2. Syngas conditioning and purification 23 3.1.3. Pyrolysis 29 3.1.4. Pyrolysis oil hydroprocessing 32 3.2. Chemical production technologies 34 3.2.1. Steam cracking 35 3.2.2. Catalytic reforming 37 3.2.3. Olefin and BTX recovery 38 3.2.4. Conventional syngas production 41 3.2.5. Methanol and methanol-based synthesis 43 3.2.6. Ammonia synthesis 48 3.3. Electric power integration options 49 3.4. Conventional waste treatment processes 53 3.4.1. Mechanical biological treatment and material recovery 54 3.4.2. Waste incineration 57 3.5. Utility processes and process chain balancing 59 3.6. Electricity and heat supply modelling 65 4. Individual assessment of feedstock recycling processes 68 4.1. Goal and scope definition 68 4.2. Life cycle inventory 68 4.3. Impact assessment 72 4.4. Interpretation 80 5. System-based assessment of feedstock recycling processes 82 5.1. Goal and scope definition 82 5.2. Life cycle inventory 86 5.2.1. Utility, background system inventory and system integration 88 5.2.2. Assessment scenario definition and parameter variation 90 5.3. Impact assessment 93 5.3.1. Framework Status Quo (FSQ) 93 5.3.2. Framework Energy Integration (FEI) 99 5.4. Interpretation 106 6. Summary and conclusion 109 6.1. Results 110 6.2. Recommendations and outlook 111 References 113 Supplementary Material 136 info:eu-repo/classification/ddc/660 ddc:660 Pyrolyse Vergasung Synthesegas Öl Verfahrenstechnik Minderung Treibhausgas
750	Sustainable Recycling of Electrolytes for Vanadium Redox Flow Batteries : Method development and Review (Bachelor Thesis) / Hållbar återvinning av elektrolyter för Vanadium Redox Flödesbatterier. : Utveckling av en miljövänlig återvinningsmetod samt översikt av andrarelaterade vetenskapliga forskningar. Doulati, Reza January 2023 (has links) Vanadium Redox Flow Batteries VRFBs are promising energy storage systems with highly recyclable electrolytes. The recycling of these systems usually involves ammonium-based salt precipitation steps, which produce toxicgases and contaminated water as waste. In this study, a novel method has been developed to recycle vanadiumdirectly from VRFB electrolyte solutions. The purity and characteristics of the final product have been analyzedusing X-ray Diffraction and Cyclic Voltammetry analysis. The method developed in this study has a precipitationrecovery of 98%. However, further investigation is needed to improve product purity and method optimization. / Sammanfattning på svenska: Vanadium Redox Flödes Batterier VRFB är lovande energilagringssystem medmycket återvinningsbara elektrolyter. Återvinningen av dessa system innefattar vanligtvis ammoniumbaseradesaltutfällningssteg som producerar giftiga gaser och förorenat vatten som avfall. I denna studie har en ny metodutvecklats för återvinning av vanadium direkt från VRFB elektrolytlösningar. Renheten och egenskaperna hosslutprodukten har analyserats med X-ray diffraktion och cyclic voltammetry analys. Metoden som utvecklats idenna studie har återvinnings kapacitet på 98 %. Ytterligare utredning behövs inom förbättring av produktensrenhet samt metods optimering. Chemical Sciences Kemi

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