We propose a first quantitative analysis and assessment of the environmental impact for every detailed process of WPB dismantling treatment. From the perspective of methodology, the LCA application is much more complete and comprehensive than in other correlational studies of WPB treatment.
[1] Su Yu, Lin Chuansong and Yang Aihe 2019 Talking about the pollution prevention technology and policy of waste lead-acid batteries [J] Light Industry Science and Technology 35 118-119 Google Scholar [2] Wang Hongmei, Xia Yuefu, Xi Chunqing, Liu Jingjun and Wang Baolu 2018 Responsibility and responsibility of the producers in lead-acid storage
Lead as one of the heavy metals requires special precaution and its effective management is of both societal and industrial concern. This research takes a specific product,
Overview Approximately 86 per cent of the total global consumption of lead is for the production of lead-acid batteries, mainly used in motorized vehicles, storage of energy generated by photovoltaic cells and wind turbines, and for back-up power supplies (ILA, 2019). The increasing demand for motor vehicles as countries undergo economic development and
[30] Wei M., Ma J. and Gao T. 2021 IOP Conference Series: Earth and Environmental Science (IOP Publishing) Analysis on pollution prevention and control of waste lead battery recycling process. Google Scholar [31] Tian X. et al 2021 Design and simulation of a secondary resource recycling system: A case study of lead-acid batteries. Waste
China produces a large number of waste lead-acid batteries (WLABs). However, because of the poor state of the country''s collection system, China''s formal recycling rate is
Citation: Zan, X.; Zhang, D. Analysis on the Optimal Recycling Path of Chinese Lead-Acid Battery under the Extended Producer Responsibility System. Sustainability 2022, 14, 4950. https://doi
China produces a large number of waste lead-acid batteries (WLABs). However, because of the poor state of the country''s collection system, China''s formal recycling rate is much lower than that of developed countries and regions, posing a serious threat to the environment and human health.
As an important producer of lead acid batteries for the Middle Eastern and Eastern European market, Turkey seems to meet 22%–52% of its total lead demand by waste lead acid battery recovery. In this study, the wastes from
Lead-acid battery, lead, recycling, recovery, management, solid waste, mini-review 1 Department of Chemical and Materials Engineering, Hefei University, Hefei, China
Lead as one of the heavy metals requires special precaution and its effective management is of both societal and industrial concern. This research takes a specific product, i.e. lead-acid battery, to analyze the supply-consumption sustainability (SCS) of
The following paper aims to inform the readers about various hazardous wastes like solid waste, liquid waste and air pollutant generated in lead acid battery industries, harmful effects...
Improper waste lead-acid battery (LAB) disposal not only damages the environment, but also leads to potential safety hazards. Given that waste best available treatment technology (BATT)...
Zhang L, Li X, Li Y, Wang X, Li F (2020b) Treatment of wastewater from a lead-acid battery plant using ozonation: process optimization and reaction mechanism. J Environ Manag 257:109989. Google Scholar Zhang Y, Li X, Li Y, Wei J, Liu H (2020c) Fabrication of iron slag-based adsorbents for removal of lead ions from water. Sep Purif Technol 244:
Exide industry is one of the leading companies towards manufacturing of lead-acid batteries nationally and internationally. Exide industry is included into red categories as it generates...
Improper waste lead-acid battery (LAB) disposal not only damages the environment, but also leads to potential safety hazards. Given that waste best available treatment technology (BATT) plays a major role in
We propose a first quantitative analysis and assessment of the environmental impact for every detailed process of WPB dismantling treatment. From the perspective of
Various innovations have been recently proposed to recycle lead and lead-containing compounds from waste lead-acid batteries. In this mini-review article, different recycling techniques for waste lead-acid batteries are highlighted. The present state of such recycling and its future perspectives are also discussed.
Recycling lead from waste lead-acid batteries has substantial significance in environmental protection and economic growth. Bearing the merits of easy operation and large capacity, pyrometallurgy methods are mostly used for
Chen W, Tian Y (1997) Recovery of lead from waste battery slimes. Nonfer. Met. 49–64:7 (in Chinese) Google Scholar Chen CS, Shih YJ, Huang YH (2016) Recovery of lead from smelting fly ash of waste lead-acid battery by leaching and electrowinning. Waste Manage 52:212–220. Article CAS Google Scholar
Improper waste lead-acid battery (LAB) disposal not only damages the environment, but also leads to potential safety hazards. Given that waste best available treatment technology (BATT)...
Various innovations have been recently proposed to recycle lead and lead-containing compounds from waste lead-acid batteries. In this mini-review article, different recycling techniques for
Basically, exploring feasible solutions to this issue requires a comprehensive analysis of national and local regulations on environmental pollution and other hazards caused by waste LABs
Basically, exploring feasible solutions to this issue requires a comprehensive analysis of national and local regulations on environmental pollution and other hazards caused by waste LABs recycling.
The pollution control problem of discarded lead-acid batteries has become increasingly prominent in China. An extended producer responsibility system must be implemented to solve the problem of recycling and utilization of waste lead batteries. Suppose the producer assumes responsibility for the entire life cycle of lead batteries. In that case, it will
Recycling lead from waste lead-acid batteries has substantial significance in environmental protection and economic growth. Bearing the merits of easy operation and large
Lead acid battery recycling and material flow analysis of lead in Korea (a system that manages the entire waste treatment process)", which is used independently besides the EPR system. And In February 2016, the Korean government launched the central environmental inspection team to strengthen waste management. This case was a result of
As an important producer of lead acid batteries for the Middle Eastern and Eastern European market, Turkey seems to meet 22%–52% of its total lead demand by waste lead acid battery recovery. In this study, the wastes from Turkish waste lead acid battery recovery plants are identified and management strategies that are both technically
Waste lead-acid batteries are a type of solid waste generated by widely dispersed sources, including households, enterprises, and government agencies. Although the number of WLABs from each individual household is low, the total number of WLABs from society is high, causing great social concern.
30% of primary lead production may be cut by improving the management efficiency. Lead is classified to be one of the top heavy metal pollutants in China. The corresponding environmental issues especially during the management of spent lead-acid battery have already caused significant public awareness and concern.
The method has been successfully used in industry production. Recycling lead from waste lead-acid batteries has substantial significance in environmental protection and economic growth. Bearing the merits of easy operation and large capacity, pyrometallurgy methods are mostly used for the regeneration of waste lead-acid battery (LABs).
China produces a large number of waste lead-acid batteries (WLABs). However, because of the poor state of the country's collection system, China's formal recycling rate is much lower than that of developed countries and regions, posing a serious threat to the environment and human health.
Therefore, clarifying the life distribution of waste lead batteries by analyzing accurate user behavior can help promote the gathering of accurate statistics on end-of-life waste lead batteries and provide data support for overall government planning and supervision, as well as improving the geographical distribution of recycling enterprises.
As for the recycled waste batteries, the primary lead industry can take lead concentrate or higher grade lead concentrate after sintering as the main raw material, and lead-containing waste in waste lead-acid batteries such as lead paste from a small number of WLABs as auxiliary ingredients.
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