Power Battery Recycling Mode and Decision-making Model for New Energy Vehicles Under the Background of Dual Carbon
DOI:
https://doi.org/10.13052/spee1048-5236.4145Keywords:
New energy vehicles, power batteries, recycling modes, carbon peak, carbon neutrality.Abstract
Recycling and cascade utilization of waste power batteries for new energy vehicles is an effective measure to manage carbon emissions in the power battery industry chain and achieve the dual carbon target. In view of the current confusion of recycling channels and the unclear benefits and costs of the recycling market, the article constructs three recycling modes: self-operated recycling mode, industry alliance recycling mode and third-party enterprise recycling mode. With profit maximization as the decision-making goal, a recycling profit function model is established, and through the comparative analysis of profits of different recycling modes, the relationship and influencing factors between them are obtained, which can provide reference for enterprises to make recycling decisions.
Downloads
References
Yao Meijiao. The trend of active carbon reduction of power batteries
[N]. China Energy News, 2022-02-14.
Thierry M, Salomon M, Van Nunen J, Van Wassenhove L. Strate-
gic issues in product recoverymanagement [J]. California Management
Review, 1995, 37(2):114–135.
Jayaraman V, Guide J, et al. Aclosed-loop logistics model for remanu-
facturing [J]. Journal of the operational research society, 1999, (50):497–
Spicer A, Johnson M . Third-party manufacturing as a solution for
extended producer responsibility [J]. Journal of Cleaner Production,
(12):37–45.
Zou RuiRui and Liu Qian. Current situation and Countermeasures of
power battery recycling industry in China[J]. IOP Conference Series:
Earth and Environmental Science, 2021, 702(1):12–13.
Jiang Chuanyu, Huang Pengfei, Yao Zimao, and Wang Baofeng.
Research on the recycling mode of waste power batteries in Ganzhou
[J]. Automobile Applied Technology, 2020(09):28–31.
Jin Qihao. Research on product life cycle-based power battery recycling
modes of electric vehicles[D]. Huazhong University of Science and
Technology, 2016.
Ni Fei. Research on power battery recycling modes of new energy
vehicle under EPR [J]. China Southern Agricultural Machinery, 2020,
(22):142–143.
Fang Yi. Research on the existing problems and modes of reverse
logistics of new energy vehicle batteries [J]. China Storage & Transport,
, (01):116–117.
Yao Yan, and Jiang Qiong. Analysis on the recycling mode of automo-
bile scrapped power batteries [J]. Automobile Parts, 2019, (12):91–94.
Zhang Guofang, Liu Shiwei, and Song Jingfen. Research on the recy-
cling mode of power batteries for new energy vehicles [J]. Technology
and Economic Guide, 2019, 27(06):102–103+99.
Hua Yang, Xinhua Liu.Toward Sustainable Reuse of Retired Lithium-
ion Batteries from Electric Vehicles[J]. Resources, Conservation and
Recycling, 2021, 168:105249.
Evan Leon , Miller. An applied analysis of the recyclability of electric
vehicle battery packs[J]. Resources, Conservation & Recycling, 2020,
:104593.
Power Battery Recycling Mode and Decision-making Model 473
Brahmesh Vinayak Joshi. Impact of policy instruments on lead-acid
battery recycling: A system dynamics approach[J]. Resources, Conser-
vation & Recycling, 2021, 169:105528.
Jayaraman V, Guide J, et al. Aclosed-loop logistics model for remanu-
facturing [J]. Journal of the operational research society, 1999, (50):497–
Spicer A, Johnson M . Third-party manufacturing as a solution for
extended producer responsibility [J]. Journal of Cleaner Production,
(12):37–45.
Ene S, Ozturk N. Network modeling for reverse flows of end-of-life
vehicles[J].Waste Management, 2015, 38: 284–296.
Etacheri V, Marom R, Ran E, et al. Challenges in the Development
of Advanced Li-Ion Batteries: A Review[J]. Energy & Environmental
Science, 2011, 4(9): 3243–3262.
Hu Yijuan. Research on recycling mode and decision-making of closed
supply chain under carbon trading mechanism [D]. South China Univer-
sity of Technology, 2020.
Ding Hui. Research on China’s Climate Investment and Financing
Policy and Development under the Dual Carbon Background [D].
University of Science and Technology of China, 2021.
Wang Siqi. Research on the legislative issues of the extended producer
responsibility system for power battery recycling under the background
of carbon peaks [J]. Legality Vision, 2021(10):5–9.
Zhou Zhen, Fan Yu and Deng Yuling. The operation mode and pro-
cessing cost mechanism of waste battery recycling [J]. China Business
Review, 2017, (12): 138–139.
Zhu Lingyun, and Chen Ming. Research on the reverse logistics mode
and recycling network of waste power batteries [J]. Chinese Journal of
Mechanical Engineering, 2019,30(15):1828–1836.
Zhang Bangsheng, Liu Guiqing, Wang Fang, Zhang Fan, and Liu
Yuchen. Analysis of the waste power battery recycling market in
[J]. China Comprehensive Utilization of Resources, 2020, 38(12):
–105.
Liang Qianqian, Wang Gang, and Wang Yaru. Network Optimization
Design of Reverse Logistics of Waste Batteries [J]. Modern Information
Technology, 2020,4(11):116–117+120.
Zhu Lingyun, and Chen Ming. Research on the reverse logistics mode
and recycling network of waste power batteries [J]. Chinese Journal of
Mechanical Engineering, 2019, 30(15):1828–1836
https://aeeeuropeenergy.com/
