This comprehensive study investigates the multifaceted impacts of LIBs(LIBs) and sustainable framework for repurposing used LIBs. The rapid proliferation of LIBs in electric vehicles and consumer electronics has raised concerns about their environmental footprint, disposal implications, and resource depletion. To address these issues, this paper aims to evaluate various technologies that facilitate an environmentally friendly method for prolonging battery life cycles. A systematic process for collecting, assessing, and refurbishing batteries will be developed to identify potential secondary uses such as home energy storage systems, backup power solutions, and small-scale renewable energy projects. The study will investigate the environmental consequences of LIB manufacturing and disposal, including electronic waste generation, resource depletion, and contamination risks, and explore the role of repurposed LIBs in reducing e-waste and conserving resources, this research seeks to contribute significantly To advance environmentally friendly battery management practices and foster a more circular economy, the research aims to provide valuable insights. These findings will have significant implications for various sectors, including industries, policymakers, and consumers. By promoting sustainable development, the research seeks to eliminate the impact of LIBs(LIBs) on the environment.
Shravya et al. (Wed,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: