Authors
Yufeng Wu, Wei Wang
Published in
Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA. Pages 734242X251370726. Sep 27, 2025. Epub Sep 27, 2025.
Abstract
The recycling of spent lead-acid batteries has become increasingly crucial for lead (Pb) supply, yet it generates significant secondary pollutants including lead dust, water-quenched slag (WQS) and wastewater that threaten soil and groundwater quality. The amount of discharged pollutants is influenced by several key processes, including crushing, separation, pre-desulphurization, crude lead smelting, refining and slag production. Accurate identification and predictive monitoring of primary pollutant-generating processes allow for targeted process optimization and enhanced environmental control. In this study, the substance flow method was employed to quantify Pb flows throughout the entire production processes and identified WQS as the primary pathway for Pb release into the environment. Then, a genetic algorithm (GA) was used to optimize an artificial neural network (ANN) model for the real-time estimation of pollutant generation from the key processes (slag production). The developed GA-ANN model exhibited a high level of prediction accuracy (mean square error = 0.0003), enabling enterprise to estimate the Pb content in WQS by analysing key input parameters. This facilitates data-driven adjustments to process parameters for pollution mitigation, offering actionable insights within actual production.
PMID:
41015788
Bibliographic data and abstract were imported from PubMed on 28 Sep 2025.
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