Towards sustainable power-battery recycling: a blockchain-based analysis of closed-loop supply chain coordination
研究了区块链赋能的动力电池闭环供应链决策,通过博弈模型分析研发成本分摊和销售收入共享两种机制,发现区块链能提升市场需求和消费者剩余,并为协调机制设计提供指导。
This study examines decision-making in closed-loop supply chains (CLSCs) for power batteries with blockchain-enabled traceability. A bidirectional game-theoretic model in which one traceability level links the forward (sales) and reverse (recovery) sides. The manufacturer leads in a game; the retailer sets price and collection; contract terms are chosen by Nash bargaining. We analyse two implementable mechanisms: R&D cost sharing and sales revenue sharing. The findings show that blockchain supports modest price pass through while increasing market demand and consumer surplus. When traceability costs are high, R&D cost-sharing and sales revenue sharing improve coordination. Bargaining power matters: greater manufacturer power raises feasible shares, while the optimal cost- and revenue-sharing rates decline as price sensitivity and traceability costs rise. These insights provide practical guidance for deploying blockchain in battery CLSCs and support the sustainable growth of the EV industry.