Abstract: The fast growth of electric vehicles (EVs), consumer electronics, and renewable energy storage in India has resulted in a huge volume of lithium-ion battery (LIB) waste, which demands effective recycling. This work examines the LIB recycling scenario in India with an emphasis on technological advancement, financial viability, policy regime, and environmental stewardship. The work concentrates on hydrometallurgical over pyro-metallurgical processes, AI-driven automation, and predictive modeling to achieve maximum material recovery and minimum carbon footprint. A business model is envisioned, with cost structures, revenue streams, and investment strategies, illustrating the feasibility of a financially viable and sustainable LIB recycling system. Quantitative estimates an increase in LIB waste to 50,000 metric tons by 2025, highlighting the importance of policy-backed incentives, public-private collaborations, and infrastructure investments. Lifecycle Assessment (LCA) studies also suggest that LIB recycling can reduce carbon emissions by 60%, according to India's net-zero emission goals. The study concludes that the integration of global best practices, government incentives, and advanced technologies can position India as a global leader in sustainable battery waste management, ensuring resource security, economic viability, and environmental sustainability.
Keywords: Lithium-ion Battery Recycling, Sustainability, Resource Recovery, Circular Economy, India, Environmental Impact
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