ABSTRACT
With the rapid development of the electric vehicle industry, the recycling difficulties of retired power batteries has been brought. In order to study the sustainable development of the retired power batteries industry in China, more attention has been paid to the strategic choices of the participants. This study develops a tripartite evolutionary game model of “government- recycling firm-consumer", obtains the evolutionary stability strategies of the system and focuses on analyzing the stability conditions of evolutionary stability strategy under positive government supervision. Then this study uses numerical simulation to analyze the evolution path and the influence of some important parameters on the evolutionary stability strategy under positive government supervision. The results show that positive government supervision plays a role in promoting industrial development. Tax break, government penalties and subsidies can promote recycling firms to recycle retired power batteries in an environmentally friendly way and giving subsidies to consumers can promote them to participate in environmental recycling. However, excessive subsidies are unfavorable for the government's performance of supervision duties. The government should set a reasonable subsidy level to avoid reducing the supervision passion due to excessive financial burden, while avoiding too low incentives to reduce consumers' willingness to participate and recyclers' enthusiasm for environmental recycling.
- CASALS L C, AMANTE GARCIA B, CANAL C.2019. Second life batteries lifespan: Rest of useful life and environmental analysis. J Environ Manage. 232: 354-63.Google ScholarCross Ref
- XIONG S, JI J, MA X.2020. Environmental and economic evaluation of remanufacturing lithium-ion batteries from electric vehicles. Waste Manag. 102: 579-86.Google ScholarCross Ref
- LANDER L, CLEAVER T, RAJAEIFAR M A, 2021. Financial viability of electric vehicle lithium-ion battery recycling. iScience. 24(7): 102787.Google Scholar
- TANG Y Y, ZHANG Q, LI Y M, 2019. The social-economic-environmental impacts of recycling retired EV batteries under reward-penalty mechanism. Appl Energ. 251: 113313.Google ScholarCross Ref
- GU X Y, ZHOU L, HUANG H F, 2021. Electric vehicle battery secondary use under government subsidy: A closed-loop supply chain perspective. International Journal of Production Economics. 234: 108035.Google ScholarCross Ref
- DING P Q, ZHAO Z Y, LI X.2020. Government subsidies in the power battery recycling industry. Ind Manage Data Syst. 120(6): 1059-83.Google ScholarCross Ref
- LI X, MU D, DU J B, 2020. Game-based system dynamics simulation of deposit-refund scheme for electric vehicle battery recycling in China. Resources, Conservation and Recycling. 157: 104788.Google ScholarCross Ref
- ZHAO X, PENG B H, ZHEN C Y, 2021. Closed-loop supply chain pricing strategy for electric vehicle batteries recycling in China. Environment, Development and Sustainability.Google Scholar
- ZHU X, LI W.2020. The Pricing Strategy of Dual Recycling Channels for Power Batteries of New Energy Vehicles under Government Subsidies. Complexity. 2020: 1-16.Google Scholar
- LU C, ZHAO M Y, TAO J, 2020. Pricing Strategy and Coordination Mechanism of Power Battery Recycling under the Dual Risks from Demand and Quality. Operations Research and Management Science. 29(04): 195-203.Google Scholar
- SHAO Y, DENG X, QING Q, 2018. Optimal Battery Recycling Strategy for Electric Vehicle under Government Subsidy in China. Sustainability. 10(12):Google Scholar
- TANG Y Y, ZHANG Q, LI Y M, 2018. Recycling mechanisms and policy suggestions for spent electric vehicles' power battery -A case of Beijing. J Clean Prod. 186: 388-406.Google ScholarCross Ref
- ZHANG Q, TANG Y, BUNN D, 2021. Comparative evaluation and policy analysis for recycling retired EV batteries with different collection modes. Appl Energ. 303:Google Scholar
- FRIEDMAN D.1991. Evolutionary Game in Economics Econometrica. 59(3): 637-66.Google Scholar
Index Terms
- Behavioral evolutionary analysis of the participants in China's retired power batteries recycling
Recommendations
Recycling e-Waste: The Sky Is the Limit
What happens to end-of-life electronics? Because of public pressure, e-waste recycling is becoming one of the fastest-growing industries in the world and it's profitable.
Design analysis: understanding e-waste recycling by Generation Y
DPPI '11: Proceedings of the 2011 Conference on Designing Pleasurable Products and InterfacesThis paper aims to understand e-waste recycling behavior of Generation Y. It presents a pilot study that explores this generation's e-waste recycling practices, their attitudes towards e-waste recycling, and the barriers to e-waste recycling. The ...
Waste electronics and electrical equipment disassembly and recycling using Petri net analysis: Considering the economic value and environmental impacts
The Industry Council for Electronic Equipment Recycling (ICER) has published estimates of waste generation based on both assumptions and analysis regarding the relationship between the market sales of Electrical and Electronic Equipment (EEE) in a given ...
Comments