Temat: battery recycling - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: Lead Exposure in Trader Communities in Industrial Area of the Battery Recycling Plant: Tangerang, Indonesia
Autorzy:: Oginawati, Katharina
Sidhi, Rifan
Susetyo, Septian Hadi
Powiązania:: https://bibliotekanauki.pl/articles/123452.pdf
Data publikacji:: 2020
Wydawca:: Polskie Towarzystwo Inżynierii Ekologicznej
Tematy:: lead exposure
urine lead
risk assessment
heavy metal
battery recycling plant
Opis:: The aim of this study was to look at the risk of community around the battery recycling plant in terms of the exposure to lead dust. The number of respondents amounted to 60 people from an industrial area and a residential area. The sample of the industrial area included 30 respondents with a composition of 15 men and 15 women. The same number of respondents was also examined in the residential area as a control area, located 5 km from the industrial area. Respirable dust was measured using a personal dust sampler, the concentration of lead in dust was measured using GF-AAS, while as a biomarker of exposure, the lead content in urine was measured using GF-AAS. The average values for respirable lead in industrial and residential areas are 0.92 μg/m³ and 0.92–1.34 μg/m³. The analysis of the lead content in urine for the industrial and residential areas produced an average value of 119 ppb and 123 ppb. The average value of HI for the lead exposure on the industrial and residential areas are in danger (HI > 1) which is 3.6 ± 1.94 and 2.18 ± 1.49. The OR values for the respondents in the industrial area compared to the residential areas amounting to 1.17 for the category of HI lead exposure and 1.22 for the category of lead in urine.
Źródło:: Journal of Ecological Engineering; 2020, 21, 4; 264-270
2299-8993
Pojawia się w:: Journal of Ecological Engineering
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Logistyka zwrotna baterii litowych
Autorzy:: Hoeck, M.
Sittig, P.-P.
Powiązania:: https://bibliotekanauki.pl/articles/321564.pdf
Data publikacji:: 2014
Wydawca:: Politechnika Śląska. Wydawnictwo Politechniki Śląskiej
Tematy:: reverse logistics
battery recycling
lithium ion battery
device batteries
battery collection
logistyka zwrotna
recycling baterii
bateria litowo-jonowa
zbiórka baterii
baterie
Opis:: In Germany roughly 15.000 tonnes of batteries are recycled every year. New challenges arose as more and more lithium-based batteries entered the market. This article deals with the reverse logistics of lithium-based device batteries and is part of the research project “HybrideLithiumgewinnung” from 2011 to 20131. Especially logistical requirements and safety issues of battery recycling are discussed. In addition, technical and ecological constraints as well as regulatory frameworks for storage and handling of used lithium batteries are portrayed. To ensure the fulfilment of regulatory requirements, technical and organizational actions and personal behaviour of the participants need to be examined. The stated conditions are compared with the actual situation to determine the weak spots and to show the rooms for improvements.
W Niemczech 15000 ton baterii corocznie podlega recyklingowi. Nowym wyzwaniem w tym zakresie jest wzrost liczby baterii litowych. Artykuł prezentuje problematykę związaną z recyklingiem baterii litowych na przykładzie wybranego programu w latach 2011-2013. W szczególności zaprezentowano wymagania dotyczące bezpieczeństwa i recyklingu. Dodatkowo, przedstawiono ekologiczne uwarunkowania i kwestie prawne dotyczące omawianych zagadnień.
Źródło:: Zeszyty Naukowe. Organizacja i Zarządzanie / Politechnika Śląska; 2014, 71; 87-107
1641-3466
Pojawia się w:: Zeszyty Naukowe. Organizacja i Zarządzanie / Politechnika Śląska
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 3.

Tytuł:: Transport telematics as a tool supporting the collection of used lead-acid batteries in Nepal
Autorzy:: Dhungana, B.
Szpytko, J.
Powiązania:: https://bibliotekanauki.pl/articles/393914.pdf
Data publikacji:: 2019
Wydawca:: Polskie Stowarzyszenie Telematyki Transportu
Tematy:: telematics
recycling used lead-acid batteries
QR code
battery recycling in Nepal
used battery collection system
telematyka
recykling zużytych akumulatorów ołowiowo-kwasowych
kod QR
recykling akumulatorów w Nepalu
system zbiórki zużytych akumulatorów
Opis:: In developing countries, the problem of collecting used batteries is a significant environmental problem, especially as: the demand for batteries grows, the system of collection and disposal of used batteries is not appropriate, environmental problems are visible. This problem is particularly important in countries with difficult terrain, an example is Nepal. The subject of the paper is the method of collection of used lead-acid batteries in Nepal with the use of the concept of transport telematics. The scale of the problem in Nepal has been identified, the terrain conditions in which the used batteries are left has also been described, a mobile platform was proposed with a communication system to identify used batteries in the field, and the method of physical collection of batteries dispersed in the field and transport to warehouses was proposed. The technical assumptions of the system for the identification, collection and transport of used lead-acid batteries have been also formulated.
Źródło:: Archives of Transport System Telematics; 2019, 12, 2; 31-36
1899-8208
Pojawia się w:: Archives of Transport System Telematics
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 4.

Tytuł:: Overview of funding sources and technologies for the recovery of raw materials from spent batteries and rechargeable batteries in Poland
Przegląd źródeł finansowania i technologii odzyskiwania surowców z zużytych baterii i akumulatorów w Polsce
Autorzy:: Nowaczek, Agnieszka
Kulczycka, Joanna
Powiązania:: https://bibliotekanauki.pl/articles/216666.pdf
Data publikacji:: 2020
Wydawca:: Polska Akademia Nauk. Instytut Gospodarki Surowcami Mineralnymi i Energią PAN
Tematy:: raw material recycling
battery
rechargeable battery
recykling surowców
bateria
akumulator
Opis:: Building a Strategic Battery Value Chain in Europe COM/2019/176 is a priority for EU policy. Europe’s current share of global cell production is only 3%, while Asia has already reached 85%. To ensure a competitive position and independence in the battery market, Europe must act quickly and comprehensively in the field of innovation, research and construction of the infrastructure needed for large-scale battery production. The recycling of used batteries can have a significant role in ensuring EU access to raw materials. In the coming years, a very rapid development of the battery and rechargable battery market is forecast throughout the EU. In the above context, the recycling of used batteries plays an important role not only because of their harmful content and environmental impact, or adverse impact on human health and life, but also the ability to recover many valuable secondary raw materials and combine them in the battery life cycle (Horizon 2010 Work Programme 2018–2020 (European Commission Decision C(2019) 4575 of 2 July 2019)). In Poland, more than 80% of used batteries are disposable batteries, which, together with municipal waste, end up in a landfill and pose a significant threat to the environment. This paper examines scenarios and directions for development of the battery recycling market in Poland based on the analysis of sources of financing, innovations as well as economic and legal changes across the EU and Poland concerning recycling of different types of batteries and rechargable batteries.
Budowanie strategicznego łańcucha wartości w zakresie baterii i akumulatorów w Europie COM/2019/176 jest priorytetem dla polityki UE. Obecny udział Europy w globalnej produkcji ogniw wynosi zaledwie 3%, podczas gdy Azja osiągnęła już poziom 85%. Aby zapewnić konkurencyjną pozycję i niezależność na rynku baterii, Europa musi działać szybko i kompleksowo w dziedzinie innowacji, badań oraz budowy infrastruktury niezbędnej do produkcji baterii na dużą skalę. Recykling zużytych baterii może odgrywać znaczącą rolę w zapewnianiu dostępu UE do surowców. W najbliższych latach prognozowany jest bardzo szybki rozwój rynku baterii i akumulatorów w całej Uni Europejskiej. W powyższym kontekście recykling zużytych baterii odgrywa ważną rolę nie tylko ze względu na ich szkodliwą zawartość, niekorzystny wpływ na środowisko oraz zdrowie i życie ludzkie, ale także na możliwość odzyskania wielu cennych surowców w całym cyklu życia produktu (program prac „Horyzont 2010” na lata 2018–2020 (decyzja Komisji Europejskiej C (2019) 4575 z dnia 2 lipca 2019 r.)). W Polsce ponad 80% używanych baterii to baterie jednorazowe, które wraz z odpadami komunalnymi trafiają na składowisko odpadów, stanowiąc istotne zagrożenie dla środowiska. Celem postawionym w artykule jest opracowanie scenariuszy i kierunków rozwoju recyklingu rynku baterii w Polsce na podstawie analizy źródeł finansowania, innowacji oraz zmian ekonomicznych i prawnych w UE i w Polsce w zakresie recyklingu różnych typów baterii i akumulatorów.
Źródło:: Gospodarka Surowcami Mineralnymi; 2020, 36, 2; 153-172
0860-0953
Pojawia się w:: Gospodarka Surowcami Mineralnymi
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 5.

Tytuł:: Li-S battery recycling
Autorzy:: Siczek, Krzysztof
Powiązania:: https://bibliotekanauki.pl/articles/409532.pdf
Data publikacji:: 2019
Wydawca:: Politechnika Poznańska. Wydawnictwo Politechniki Poznańskiej
Tematy:: lithium-sulfur battery
recycling
anode
cathode
electrolyte
Opis:: Lithium-ion batteries are not situable for electric vehicles with high millage, military power supplies and fixed power networks. Therefore, the Li-S batteries have been intensively investigated, due to the high capacity, low cost, widespread source, and nontoxicity. The development of Li-S batteries causes increasing need to find the methods for their recycling. Some of them are discussed in the paper. The recycling of Li-S cell relates to its anode, cathode, electrolyte, binder and separator. The Li-S battery should be fully charged before recycling. There are potential methods for recycling of lithium from anodes, especially by re-melting. It is also possible to recycle some materials from the cathodes, especially sulfur by re-melting and graphite by dry crushing, Eco-bat Technologies method or the method investigated by Xiang et al. There is no effective recycling methods for electrolytes, binders and separators. It is necessary to carry out further studies on them.
Źródło:: Research in Logistics & Production; 2019, 9, 2; 125-135
2083-4942
2083-4950
Pojawia się w:: Research in Logistics & Production
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 6.

Tytuł:: Synthesis of the Nickel-Cobalt-Manganese Cathode Material Using Recycled Nickel as Precursors from Secondary Batteries
Autorzy:: Jung, Hang-Chul
Han, Deokhyun
Kim, Dae-Weon
Ahn, Byungmin
Powiązania:: https://bibliotekanauki.pl/articles/2049177.pdf
Data publikacji:: 2021
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: secondary battery
nickel
recycling
Taylor reaction
cathode materials
Opis:: As the amount of high-capacity secondary battery waste gradually increased, waste secondary batteries for industry (high-speed train & HEV) were recycled and materialization studies were carried out. The precipitation experiment was carried out with various conditions in the synthesis of LiNi0.6Co0.2Mn0.2O2 material using a Taylor reactor. The raw material used in this study was a leaching solution generated from waste nickel-based batteries. The nickel-cobalt-manganese (NCM) precursor was prepared by the Taylor reaction process. Material analysis indicated that spherical powder was formed, and the particle size of the precursor was decreased as the reaction speed was increased during the preparation of the NCM. The spherical NCM powder having a particle size of 10 μm was synthesized using reaction conditions, stirring speed of 1000 rpm for 24 hours. The NCM precursor prepared by the Taylor reaction was synthesized as a cathode material for the LIB, and then a coin-cell was manufactured to perform the capacity evaluation.
Źródło:: Archives of Metallurgy and Materials; 2021, 66, 4; 987-990
1733-3490
Pojawia się w:: Archives of Metallurgy and Materials
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 7.

Tytuł:: Solvent Extraction of Co, Ni and Mn from NCM Sulfate Leaching Solution of Li(NCM)O2 Secondary Battery Scraps
Autorzy:: Hong, H. S.
Kim, D. W.
Choi, H. L.
Ryu, S.-S.
Powiązania:: https://bibliotekanauki.pl/articles/355577.pdf
Data publikacji:: 2017
Wydawca:: Polska Akademia Nauk. Czytelnia Czasopism PAN
Tematy:: waste recycling
NCM-system lithium ion battery
reduction
leaching
Opis:: As a part of the study on recycling Li(NCM)O₂ lithium-ion battery scraps, solvent extraction experiments were performed using different extraction agents such as PC88A, Cyanex272 and D2EHPA to separate Co, Ni and Mn from the leaching solution. When the ratio of Mn to Ni was about 0.4 in the leaching solution, the separation factor for Co and Mn was found to be less than 10 so that the separation of Co and Ni was insufficient. When solvent extraction was done using the solution with the lower Mn/Ni ratio of 0.05 where Mn was removed by potassium permanganate and chlorine dioxide, more than 99% of Mn could be extracted through five courses of extraction using 30vol% D2EHPA while the extraction rates of Co and Ni were around 17% and 11%, respectively. In the case that Mn was removed from the solution, the extraction rate of Co was higher than 99% whereas less than 7% Ni was extracted using Cyanex272 suggesting that Co and Ni elements were effectively separated.
Źródło:: Archives of Metallurgy and Materials; 2017, 62, 2B; 1011-1014
1733-3490
Pojawia się w:: Archives of Metallurgy and Materials
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 8.

Tytuł:: Studies on battery repair and recycling workers occupationally exposed to lead in Karachi
Autorzy:: Haider, M.J.
Qureshi, N.
Powiązania:: https://bibliotekanauki.pl/articles/874438.pdf
Data publikacji:: 2013
Wydawca:: Narodowy Instytut Zdrowia Publicznego. Państwowy Zakład Higieny
Tematy:: battery repair
recycling
worker
occupational exposure
lead
human exposure
blood lead level
hematological parameter
Karachi city
Opis:: Objective. The present study was carried out to investigate the effects of occupational lead exposure on the hematological and biochemical parameters in occupationally exposed and non exposed inhabitants of Karachi. Material and methods. In 100 lead exposed subjects recruited from automobile workshops, lead battery repair and recycling units located in Karachi and in 100 control subjects the general health status, hematological parameters and exposure markers for lead were measured. Results. Results indicated that the mean values of blood lead level and δ-aminolevulinic acid were significantly higher (P<0.05) while the activity of δ-aminolevulinic acid dehydratase were significantly decreased (P<0.05) among battery repair and recycling workers as compared to controls. The abnormalities in the blood lead level, δ-aminolevulinic acid and δ-aminolevulinic acid dehydratase were more frequent in lead exposed battery repair workers when compared with control subjects. The blood lead levels and δ-aminolevulinic acid were positively correlated while δ-aminolevulinic acid dehydratase was found to be negatively correlated with age, years of exposure and years of employment. Blood lead level was positively correlated with hemoglobin and RBC count while δ-aminolevulinic acid dehydratase was negatively correlated with hemoglobin concentration. The work related symptoms, droopiness, nasal symptoms and muscular pain were more frequent among battery repair workers as compared to control group. The findings of present study confirmed that occupational exposure to lead is associated with deviation in important hematological parameters and biological markers of exposure to lead among lead exposed workers, and also confirms the impact of lead exposure in the development of adverse effects among lead exposed workers. Conclusions. The study provides the data for risk assessment in lead battery repair workers of Karachi and suggests the need for preventive measures for battery repair workers and improvements to reduce occupational lead exposures to protect them from lead toxicity. It is suggested that hematological and physical examinations of lead exposed workers should be carried out periodically to prevent future health hazards.
Cel. Badania przeprowadzono w celu określenia wpływu zawodowego narażenia na ołów na hematologiczne i biochemiczne parametry u zawodowo narażonych w porównaniu do nienarażonych mieszkańców Karaczi. Materiał i metody. U 100 osób narażanych na ołów spośród pracowników zatrudnionych w zakładach naprawy i przetwarzania akumulatorów w Karaczi i u 100 osób kontrolnych badano ogólny stan zdrowia, parametry hematologiczne i markery narażenia na ołów. Wyniki. Wyniki wskazują, że średnie poziomy ołowiu i kwasu δ-aminolewulinowego we krwi były znacząco wyższe (P<0.05), podczas gdy aktywność dehydratazy kwasu δ-aminolewulinowego była znacząco niższa (P<0.05) u zatrudnionych przy naprawie i przetwarzaniu akumulatorów w porównaniu do osób z grupy kontrolnej. Poziomy ołowiu we krwi i kwasu δ-aminolewulinowego były skorelowane pozytywnie podczas gdy w przypadku aktywności dehydratazy kwasu δ-aminolewulinowego stwierdzono negatywną korelację do wieku i mierzonego w latach czasu narażenia. Stężenie ołowiu we krwi było pozytywnie skorelowane z hemoglobiną i liczbą erytrocytów a aktywność dehydratazy kwasu δ-aminolewulinowego była negatywnie skorelowana ze stężeniem hemoglobiny. Objawy związane z wykonywaną pracą, takie jak osłabienie, objawy ze strony nosa i bóle mięśniowe częściej występowały u osób narażonych niż z grupy kontrolnej. Wyniki przeprowadzonych badań potwierdziły, że zawodowe narażenie na ołów wiąże się ze zmianami istotnych parametrów hematologicznych i występowaniem markerów narażenia na ołów u narażonych pracowników, a także występowaniem szkodliwych skutków zdrowotnych. Wnioski. Wyniki badań dostarczają danych do oceny ryzyka u pracowników naprawy i recyklingu akumulatorów i sugerują potrzebę zastosowania środków zaradczych w celu obniżenia zawodowego narażenia na ołów u tej grupy pracowników i ochrony przed toksycznym oddziaływaniem ołowiu. Sugeruje się, że badania parametrów hematologicznych i medycznych u pracowników narażonych na ołów powinny być wykonywane okresowo w celu zapobieżenia przyszłym zagrożeniom zdrowia.
Źródło:: Roczniki Państwowego Zakładu Higieny; 2013, 64, 1
0035-7715
Pojawia się w:: Roczniki Państwowego Zakładu Higieny
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 9.

Tytuł:: Life-Cycle Assessment on Nickel-Metal Hydride Battery in Hybrid Vehicles: Comparison between Regenerated and New Battery
Autorzy:: Wang, Shuoyao
Yu, Jeongsoo
Powiązania:: https://bibliotekanauki.pl/articles/916987.pdf
Data publikacji:: 2019
Wydawca:: Uniwersytet im. Adama Mickiewicza w Poznaniu
Tematy:: Nickel-Metal Hydride Battery
Hybrid Vehicle
Reuse and Recycling
Life Cycle Assessment
Efficient use of Resources
Opis:: To reduce air pollution and avoid petroleum exhaustion problem, many advanced countries, especially Japan installed Hybrid Vehicles (HV). As the use of HV popularizes around the world, there will be a huge amount of End-of-Life HV in the near future, and the proper treatment of these End-of-Life HVs, especially the waste NiMH (Nickel-Metal Hydride) batteries, will become a serious problem. Currently, the recycling of NiMH battery is gaining substantial attention. However, instead of recycling waste NiMH batteries directly, regenerating and reusing a used NiMH battery for a secondhand HV will largely reduce waste battery generation and demand for new NiMH battery. However, the environmental impact of regenerating and reusing a waste NiMH battery was not clear and has not been compared with the situation when using a brand-new NiMH battery. The purpose of this research is to compare the environmental performance (CO2 emission) of regenerated NiMH battery and brand-new NiMH battery in an HV from their production to usage stage and to discuss the validity of using a regenerated NiMH in Japan and in other countries using the Life-Cycle Assessment (LCA) approach. This research analyzed the composition of a NiMH battery and the CO2 emission during the manufacture, transportation, regeneration and usage process of a NiMH battery. The data used in this research was collected from reports and data published by the government of Japan, vehicle makers and previous studies. Original field survey and interview research on battery regeneration operators were also performed. The result showed that there is not a big difference in environmental effect. Moreover, by doing so, a huge amount of resource will be saved from battery manufacturing process while reducing waste generation. It is recommended that waste NiMH battery should be regenerated and reused in HV instead of being recycled directly in the future.
Źródło:: Investigationes Linguisticae; 2019, 43; 57-79
1426-188X
1733-1757
Pojawia się w:: Investigationes Linguisticae
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 10.

Tytuł:: Technical and organisational conditions in the management of recovery and recycling processes of waste batteries and accumulators
Autorzy:: Wengierek, Maria
Powiązania:: https://bibliotekanauki.pl/articles/2032992.pdf
Data publikacji:: 2021
Wydawca:: Politechnika Śląska. Wydawnictwo Politechniki Śląskiej
Tematy:: hazardous waste
waste recovery
recycling
efficiency
recycling technology
waste battery
accumulator
plants
odpady niebezpieczne
odzyskiwanie odpadów
recykling
wydajność
technologia recyklingu
zużyta bateria
akumulator
zakłady
Opis:: Introduction/background: Waste batteries and accumulators are hazardous waste and should not be sent to landfill sites. Their presence in the waste mixture causes the release of dangerous heavy metals into the natural environment. Aim of the paper: The aim of the study is to review the processes currently used in the recycling of used batteries and accumulators, currently used in the world and in Poland, as well as installations and technologies, depending on the types, kinds and physicochemical properties of waste, and to draw attention to the ventures to prevent waste generation. Materials and methods: The paper discusses the nature of waste, storage and transport conditions, organisation of collection, processes and processing technology. The article presents examples of waste management facilities dealing with recovery and recycling of batteries in Poland and Silesia. The research was based on an analysis of legal acts, statistical data, professional literature and company experiences. The second part is a case study. Selected environmental systems presented on descriptive models are based on the results of an environment (region) system analysis. Results and conclusions: EU directives and national law force the reuse of raw materials used in their production. Therefore, one should strive to apply the most effective technologies of waste recovery and recycling. The most recommended and cost-effective is product salvage followed by material recovery, especially of scarce, rare and precious earth metals. Various processes and technologies (installations) for the recovery of raw materials from waste batteries and accumulators are used around the world. The best known are: Jogmec, Batrec, Recytec, Accurec, Everead, Inmetco, Sab-Nife, Snam-Savam, Citron, Batenus, TNO. Long battery life minimises the amount of waste, and thus reduces the burden on the environment. Therefore, in the process of producing batteries, it is important to improve the technology already at the production stage. An example is the Polish experience (Europower; Tuborg; Tuborg-Silver).
Źródło:: Organizacja i Zarządzanie : kwartalnik naukowy; 2021, 1; 137-157
1899-6116
Pojawia się w:: Organizacja i Zarządzanie : kwartalnik naukowy
Dostawca treści:: Biblioteka Nauki

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