退役动力电池回收研究进展及未来趋势

刘芳; 李安琪

doi:10.12153/j.issn.1674-991X.20230536

退役动力电池回收研究进展及未来趋势—基于CiteSpace可视化分析

doi: 10.12153/j.issn.1674-991X.20230536

刘芳,
李安琪^,

安徽工程大学经济与管理学院

基金项目: 国家社会科学基金一般项目（23BGL221）；安徽省自然科学基金项目（2108085QG301）；安徽省高校哲学社会科学研究重大项目（2023AH040120）

详细信息

作者简介:
刘芳（1983—），女，博士，主要研究方向为固体废物管理及资源化，liufang@ahpu.edu.cn

通讯作者:
李安琪（1999—），女，硕士，主要研究方向为固体废物环境影响，1073183213@qq.com

中图分类号: X705; G353.1
计量
- 文章访问数: 59
- HTML全文浏览量: 24
- PDF下载量: 34
- 被引次数: 0
出版历程
- 收稿日期: 2023-07-19
- 录用日期: 2023-11-29
- 修回日期: 2023-09-25

Research progress and future trend of retired power battery recycling: CiteSpace-based visual analysis

LIU Fang,
LI Anqi^,

School of Economics and Management, Anhui Polytechnic University

摘要

摘要:
基于中国知网（CNKI）数据库和Web of Science核心数据库，运用文献计量软件CiteSpace对2000—2023年退役动力电池回收研究的发文趋势、高产作者、高产机构、关键词共现和聚类等进行可视化分析。结果发现：自2000年以来，动力电池回收研究呈持续上升趋势，国外高产作者聚集且合作关系紧，国内高产作者分散且合作关系疏；国外高产机构集中于发达国家，国内高产机构多来自经济发展水平较高的城市；关键词共现和聚类分析表明，退役动力电池回收工艺、梯次利用和回收体系是研究焦点。未来应积极开展跨区域、跨学科和跨产业合作，加强高效、智能、安全的退役动力电池回收体系及其梯次利用产业链构建研究，以促进新能源汽车产业链的健康发展。
- 退役动力电池 /
- 回收利用 /
- 梯次利用 /
- 可视化分析 /
- CiteSpace
Abstract:
Based on CNKI and WoS databases, the publishing trend, high-yield authors, high-yield institutions, keyword co-occurrence and clustering of research on retired power battery recycling during 2000-2023 were analyzed using the bibliometrics software CiteSpace. The results show that the study on retired power battery recycling has shown a continuous upward trend since 2000. The foreign high-prolific authors gather and cooperate tightly, while domestic high-prolific authors are scattered and have weak cooperative relations. Foreign high-yield institutions are concentrated in developed countries, and domestic high-yield institutions are mostly from cities with higher economic development levels. The keywords co-occurrence and clustering analysis show that the recycling process, echelon utilization and the recycling system construction of retired power batteries are the research focus. In the future, cross-regional, cross-industry and interdisciplinary cooperation should be positively developed. The research on the construction of the efficient, intelligent and safe retired power battery recycling system and echelon utilization industrial chain should be strengthened to promote the healthy development of the new energy vehicle industry chain.
- retired power battery /
- recycling /
- echelon utilization /
- visual analysis /
- CiteSpace

HTML全文

图 1 2000—2023年国内外退役动力电池回收研究发文量

Figure 1. Number of literature on retired power battery recycling at home and abroad from 2000 to 2023

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图 2 高产作者关系网络图谱

Figure 2. Relationship map of high-yield authors

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图 3 高产机构关系网络图谱

Figure 3. Relationship map of high-yield institutions

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图 4 电池回收研究关键词共现图谱

Figure 4. Research keywords co-occurrence map of battery recycling

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图 5 关键词共现聚类信息图谱

Figure 5. Information map of keywords co-occurrence clustering

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表 1 2000—2023年国内外退役电池回收研究的高被引作者

Table 1. Highly cited authors of research on retired power battery recycling at home and abroad from 2000 to 2023

序号	国内发文			国外发文
序号	作者	文献名称	被引频次/次	作者	文献名称	被引频次/次
1	Rao Z H^[6]	A review of power battery thermal energy management	749	Larcher D^[14]	Towards greener and more sustainable batteries for electrical energy storage	5207
2	Fan E S^[7]	Sustainable recycling technology for Li-ion batteries and beyond: challenges and future prospects	695	Harper G^[15]	Recycling lithium-ion batteries from electric vehicles	1226
3	Lü W G^[8]	A critical review and analysis on the recycling of spent lithium-ion batteries	586	Olivetti E A^[16]	Lithium-ion battery supply chain considerations: analysis of potential bottlenecks in critical metals	736
4	Zeng X L^[9]	Recycling of spent lithium-ion battery: a critical review	586	Jaguemont J^[17]	A comprehensive review of lithium-ion batteries used in hybrid and electric vehicles at cold temperatures	631
5	Zhang X X^[10]	Toward sustainable and systematic recycling of spent rechargeable batteries	534	Ordoñez J^[18]	Processes and technologies for the recycling and recovery of spent lithium-ion batteries	405
6	Huang B^[11]	Recycling of lithium-ion batteries: recent advances and perspectives	450	Chen M Y^[19]	Recycling end-of-life electric vehicle lithium-ion batteries	401
7	Zheng X H^[12]	A mini-review on metal recycling from spent lithium ion batteries	379	Hannan M A^[20]	State-of-the-art and energy management system of lithium-ion batteries in electric vehicle applications: issues and recommendations	390
8	Liu C W^[13]	Recycling of spent lithium-ion batteries in view of lithium recovery: a critical review	371	Zackrisson M^[21]	Life cycle assessment of lithium-ion batteries for plug- in hybrid electric vehicles: critical issues	353

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表 2 关键词的频次与中心性

Table 2. Frequency and centrality of keywords

序号	国内作者发文				国外作者发文
序号	关键词	频次	中心性	年份	关键词	频次	中心性	年份
1	recovery	202	0.13	2010	lithium-ion battery	212	0.17	2010
2	valuable metal	176	0.02	2012	recovery	204	0	2013
3	cobalt	165	0	2013	valuable metal	144	0	2017
4	cathode material	142	0.01	2010	cobalt	141	0.01	2010
5	spent lithium-ion battery	131	0.03	2012	separation	101	0.1	2010
6	Li	127	0.02	2012	cathode material	97	0.12	2011
7	lithium-ion battery	110	0.03	2011	performance	86	0.02	2015
8	performance	103	0.03	2010	electric vehicle	82	0.04	2011
9	回收	96	0.03	2000	circular economy	76	0.03	2017
10	separation	90	0.06	2011	Li	75	0.05	2013
11	梯次利用	63	0.01	2014	metal	61	0.06	2013
12	electric vehicle	58	0.14	2011	battery recycling	53	0.11	2010
13	动力电池	56	0.01	2014	technology	49	0.02	2012

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表 3 关键词突现情况

Table 3. Emergence situation of keywords

范围	关键词	起始年	强度	突现时段
国内发文	回收	2000	21.04	2000—2016
	废电池	2000	3.29	2000—2009
	回收利用	2001	10.30	2001—2016
	废旧电池	2002	11.06	2002—2014
	hydrometallurgical proce	2012	7.22	2012—2018
	metal value	2013	4.50	2013—2019
	metal	2010	4.27	2013—2015
	recovery proce	2013	3.78	2013—2018
	cathodic active material	2013	3.24	2013—2018
	动力电池	2014	5.33	2014—2018
国外发文	solvent extraction	2010	2.71	2010—2014
	metal value	2013	5.87	2013—2018
	nickel	2010	3.54	2013—2018
	secondary battery	2013	3.50	2013—2017
	acid	2010	3.38	2013—2019
	nickel metal hydride	2013	2.82	2013—2018
	capacity	2014	3.46	2014—2017
	waste management	2014	3.03	2014—2018
	plug in hybrid	2014	2.97	2014—2015
	lithium ion	2012	4.84	2015—2020

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