Power Battery Cascade Utilization Reverse Supply Chain Literature Review
DOI:
https://doi.org/10.54097/82km5a05Keywords:
Power battery recycling, reverse supply chain, government subsidies, cascade utilization.Abstract
In the 21st century, the development prospects of new energy vehicles are broad, and the next few years are expected to continue to maintain rapid growth. However, with the continuous expansion of the new energy vehicle market, the recycling problem of power batteries has gradually become prominent. The power battery contains precious metals and harmful substances that may cause environmental pollution, which will lead to waste of resources and environmental pollution if the recycling is not properly handled. Therefore, taking the right recycling measures is essential to protect the environment and save resources. This paper mainly studies the reverse supply chain recycling of power batteries, including the following aspects: supply chain recycling channels, government participation in recycling, research on cascade utilization of power batteries, and puts forward prospects for future research on cascade utilization of power batteries.
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Xie Jiaping, Liang Ling, Li Yanyu, Li Zhong. Research on mechanism and strategy of revenue sharing contract in closed loop supply chain [J]. Journal of Management Engineering, 2017, 31(02): 185-193.
Chen Jun, Tian Dagang. Product recycling model selection under closed-loop supply chain model [J]. China Management Science,2017,25(01):88-97. (in Chinese)
Gong Yande, Jiang Yuwei. Research on pricing and Channel Selection of mixed recycling model in closed-loop supply chain [J]. Soft Science,2018,32(05):127-131+144. (in Chinese)
Lu Yingjin, Xu Xuefan, Ai Xingzheng. Research on dual-channel recycling decision of closed-loop supply chain under third-party scale effect [J]. Journal of Management Engineering, 2018, 32(02): 207-217. (in Chinese)
Fu Xiaoyong, Zhu Qinghua, Zhao Tielin. Recycling channel selection strategy based on recycling price competition among reverse supply chains [J]. China Management Science, 2014, 22(10): 72-79.
Feng Zhangwei, Xiao Tiaojun, Chai Caichun. Recycling and pricing strategy of two-level closed-loop supply chain led by third-party recyclers [J]. China Management Science, 2018, 26(01): 118-127. (in Chinese)
YAO Fengmin, Liu Shan, Teng Chunxian. Decision-making and coordination of third-party recycling closed-loop supply chain under competition of two retailers [J]. Operations Research and Management, 201,30(03):83-89. (in Chinese)
Zhao Jinghua, Lin Jie. Closed-loop supply chain pricing model under different subsidy objects [J]. Journal of Management Engineering,2017,31(01):85-92. (in Chinese)
Wang Wenbin, Chen Qin, DA Qingli. Closed-loop supply chain decision-making model of manufacturer competition under reward and punishment mechanism [J]. China Management Science, 2013, 21(06):57-63. (in Chinese)
Zhou Rui, Wang Xiaoyun, Yu Fumao. Comparative study on government subsidy and reward and punishment mechanism based on third-party recycling [J]. Science and Technology Management Research,2018,38(15):253-257. (in Chinese)
Li Xinran, Zuo Hongwei. Effects of dual government Intervention on closed-loop supply chain with dual sales channels [J]. Systems Engineering Theory and Practice, 2017, 37(10):2600-2610.
Zhu Qing-Hua, Dou Yi-Jie. Green supply chain management game model based on government subsidy analysis [J]. Journal of Management Science,2011,14(06):86-95.
Xia Xiqiang, Zhu Qinghua. Research on the impact of different government subsidy strategies on single/dual channel recycling [J]. China Management Science, 2019,29(11):88-98. (in Chinese)
Lin Guihua, Shan Renbang, Chen Pibo. Selection strategy of recycling channels in closed-loop supply chain under government subsidies [J]. Operations Research and Management, 2019, 29(04):43-53. (in Chinese)
Yu Haijun, Xie Yinghao, Zhang Tongzhu, et al. Power battery coding and Electric Vehicle Identification [J]. Power Supply Technology, 2016,40(01): 113-116. (in Chinese)
Xu Yi-fei, Cao Xinya. Research on cascade utilization and recycling Mode and Application of Power battery [J]. Science and Technology Innovation, 2018(09): 111-112. (in Chinese)
Tao Zhijun, Jia Xiaofeng. Research on the business model of China's power battery recycling industry [J]. Automotive Industry Research,2018,(10):33-42.
Xu Xinhui, Shu Zhengyu, Li Shichun. Research on economic operation based on stepped utilization of decommissioned batteries in multi-energy storage scenario [J]. Smart Power, 2020, 48(12):58-64.
Xu Xiaolong, Mi Jifu, Fan Maosong, Yang Kai, Wang Hao, Liu Jingbing, Yan Hui. Study on the performance evaluation and echelon utilization of retired LiFePO4 power battery for smart grid[J]. Journal of Cleaner Production, 2019,213:1080-1086.
Guan, Y. and Q. Hou, Dynamic Strategy of Power Battery Closed-Loop Supply Chain Considering Cascade Utilization. IEEE Access, 2022. 10: p. 21486-21496.
Yang Kangkang, Zhang Wenjie, Zhang Qinhong. Research on incentive policy of power battery recycling considering cascade utilization [J]. Industrial Engineering and Management, 2022, 27(02):1-8.
Liu Juanjuan, Ma Junlong. Research on reverse subsidy mechanism of power battery closed-loop supply chain considering cascade utilization [J]. Industrial Engineering and Management, 201,26(03):80-88. (in Chinese)
Zhang Chuan, Chen Yuxiao. Decision-making and Coordination of power battery echelon Utilization closed-loop supply chain considering scale effect under government subsidies [J]. Operations Research and Management, 21, 30(12):72-77+91.
ZHANG Zijian, Guo Mingbo, Chen Quanpeng. Closed-loop supply chain pricing Strategy and coordination Mechanism of power battery gradient Utilization under EPR [J]. Industrial Engineering, 2019,23(03):10-18.
LU Chao, ZHAO Mengyuan, Tao Jie, Liu Chenguang, Yu Jiang. Research on pricing strategy and coordination mechanism of power battery recycling considering dual risks of demand and quality [J]. Operations Research and Management, 2019,29(04):195-203.
Liu, Z., et al., Research on the Critical Issues for Power Battery Reusing of New Energy Vehicles in China. Energies (Basel), 2020. 13(8): p. 1932.
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