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.
The manufacturer can entrust to alliance or independent recycling of waste lead batteries according to the different profit rates and recovery rates. (3) From the perspective of the supply chain, independent recycling (M) by production companies or recycling (R) by the commissioned union may be the best.
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.
The raw lead–acid battery wastewater sample was generated from a lead–acid battery company and kept in plastic bottles. The battery company had no recycling system; therefore, the sulfuric acid from the used lead–acid battery was directly poured into a storage tank.
The average concentration of lead in wastewater is about 3–15 mg/L and the pH of wastewater falls in the range of 1.6-2.9 [ 9 ]. If the battery wastewater is not treated well before discharge to environment, lead can contaminate food and water, and be present in nature.
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).
Waste Management in Lead-Acid Battery Industry: A …
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Based on the results presented in thermodynamic analysis and low-temperature smelting process, an integrated flowsheet was proposed for the recovery of lead from waste lead-acid batteries at the scale of 200, 000 tons annually since 2019 (Fig. 7). The whole production line mainly included raw materials process, smelting process and gas ...
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Evaluation system of the best available treatment technology (BATT) for waste lead-acid batteries (LABs). Representative data to be evaluated for the five technologies. The attribute...
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In this study, we present a low-cost and simple method to treat spent lead–acid battery wastewater using quicklime and slaked lime. The sulfate and lead were successfully removed using the precipitation method. The structure of quicklime, slaked lime, and resultant residues were measured by X-ray diffraction.
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Based on the results presented in thermodynamic analysis and low-temperature smelting process, an integrated flowsheet was proposed for the recovery of lead from waste lead-acid batteries at the scale of 200, 000 tons annually since 2019 (Fig. 7). The whole production …
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In China, the world''s largest producer and consumer of lead-acid batteries (LABs), more than 3.6 million tons of waste lead-acid batteries (WLABs) are generated every year, yet only 30% of them can be recycled in a well-regulated manner, while the remaining 70% are recycled through informal channels, resulting in serious waste of resources and …
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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 environmental protection, pertinent research has largely focused on evaluating typical recycling technologies and recommending the BATT ...
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Lead-acid batteries are widely used in transportation, communications, national defense and other fields, being valued for their cost-effectiveness, good safety performance and renewability (Wang and Kou-Xiang, 2005, Liao, 2013, Liu, 2013, Yu et al., 2019) recent years, with rapid economic development, the demand for lead-acid batteries has continued to …
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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 ...
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With the increase in battery usage and the decommissioning of waste power batteries (WPBs), WPB treatment has become increasingly important. However, there is little knowledge of systems and norms regarding the performance of WPB dismantling treatments, although such facilities and factories are being built across the globe. In this paper, …
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