Abstract
Considering the effective utilization of power battery, the cascade utilization was introduced power battery closed-loop supply chain, the system decision-making problem of the power battery dual circulation closed-loop supply chain composed of a manufacturer, recycler and cascade utilization enterprise was the research object. Under the scenario of government subsidizing cascade utilization enterprise and manufacturer sharing the innovation cost of cascade utilization, this paper (1) constructs a differential game model of the closed-loop supply chain dynamic system; (2) studies the equilibrium strategy of each game participant under the dual mechanism of government subsidy and cost-sharing; (3) analyses the influence of each parameter on the decision-making of main bodies by numerical simulation. The results show that with the increase of government subsidies, the utility of cascade utilization efforts will increase, the cascade utilization enterprise will reduce the sale price of cascade utilization products, the recycler will increase the wholesale price of high energy density batteries, the manufacturer shares part of the innovation cost of cascade utilization enterprise, which helps to reduce the burden of cascade utilization enterprise, and the government subsidy and coordination mechanism of cost-sharing are conducive to improving the level of cascade utilization.
Highlights
With the global warming and the decline of fossil resources, the role of new energy in the field of production and life has become increasingly prominent
Power battery recycling has become a hot topic in the extension of new energy vehicle industry, and cascade utilization of power battery has become an important measure to improve the level of resource utilization
Based on the research results of the existing closed-loop supply chain, from a dynamic perspective, considering the dual mechanisms of government subsidies and cost sharing and coordination, this paper studies and analyzes the equilibrium decision-making of power battery closed-loop supply chain enterprises introducing cascade utilization market
Summary
With the global warming and the decline of fossil resources, the role of new energy in the field of production and life has become increasingly prominent. From 2018 to 2020, the total scrapped power battery in China will reach 25 GWh (200000 tons). According to the prediction of China Automotive Technology Research Centre, the annual waste of power battery will reach 116 GWh (about 780000 tons) in 2025. Power battery recycling has become a hot topic in the extension of new energy vehicle industry, and cascade utilization of power battery has become an important measure to improve the level of resource utilization. It can be seen that cascade utilization helps to improve the use value of power battery in the whole life cycle, expand the utilization level of resources and dilute the manufacturing cost, and helps to promote the application of new energy vehicles and realize industrial closed loop.
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