锂离子电池电解质六氟磷酸锂市场分析

doi:10.11962/1006-4990.2020-0383

Abstract

Abstract:

Through the analysis of lithium-ion battery in power battery,energy storage battery and digital battery exhibition in the next five years,it is predicted that the average growth rate of lithium-ion battery will reach more than 26%.By 2025,the corresponding demand of electrolyte and lithium hexafluorophosphate for lithium-ion battery will reach 9.3×10⁵ t and 1.03×10⁵ t.Based on the analysis of the current production capacity of lithium hexafluorophosphate and the production expansion plan of each production enterprise,it is predicted that the production capacity of lithium hexafluorophosphate will meet the market demand before 2022.The supply and demand of lithium hexafluorophosphate will reach a balance after the production expansion of each production enterprise before 2025.The price of lithium hexafluorophosphate tends to be stable,which is expected to be around 85 000 RMB under the condition of little fluctuation of raw material price.

Key words: lithium ion battery, lithium hexafluorophosphate, market analysis

CLC Number:

TQ131.11

Sun Xinhua,Hou Lei,Qin Kai. Market analysis of lithium hexafluorophosphate liquid electrolytes in lithium-ion battery[J]. Inorganic Chemicals Industry, 2021, 53(3): 7-11.

Figures/Tables 5

References 20

[1]	Cai Zongping, Xu Mengqing, Li Weishan. Research progress of nega-tive film-forming additives in electrolyte for Li-ion batteries[J]. Chinese Battery Industry, 2008,1:15-18.
[2]	Xu K. Nonaqueous liquid electrolyte for lithium-based rechargeable batteries[J]. Chemical Reviews, 2004,104(10):4303-4418. pmid: 15669157
[3]	郭营军, 晨晖, 谢燕婷. 锂离子电池电解液研究进展[J]. 新材料产业, 2007(8):60-64.
[4]	郑洪河, 秦建华, 石磊. 锂离子电池新型电解液添加剂研究与开发[J]. 功能材料, 2004,35(增刊):1854-1860.
[5]	肖成伟, 汪继强. 电动汽车动力电池产业的发展[J]. 科技导报, 2016,34(6):74-83.
[6]	吕学隆. 从新兴应用市场需求出发观察未来五年锂离子电池电解液与隔离膜市场与产品趋势[C]// 常州:第四届新型电池电解质/隔膜材料技术国际论坛, 2019: 1-10.
[7]	高文昌. 动力电池上游产业链投资价值分析研究[D]. 天津:天津大学, 2018.
[8]	侯红军. 中国六氟磷酸锂生产工艺研究及产业化难点剖析[J]. 无机盐工业, 2015,47(12):9-11,82.
[9]	申晨, 王怀国. 我国锂离子电池产业技术发展概况[J]. 新材料产业, 2019(9):15-21.
[10]	刘艳良. 浅谈磷酸铁锂电池及其在电动船舶行业应用与发展[J]. 科学技术创新, 2020(15):43-44.
[11]	项海锋, 尚晓丽, 吴贤章. 锂电储能安全标准发展现状[J]. 蓄电池, 2020,57(3):144-147.
[12]	万天, 董剑敏, 关前锋. 百兆瓦级锂电池储能电站的工程造价及效益研究[J]. 电力勘测设计, 2020(S1):216-223.
[13]	缪平, 姚祯, LEMMON John, 等. 电池储能技术研究进展及展望[J]. 储能科学与技术, 2020,9(3):670-678.
[14]	林虹, 曹开颜. 2018年我国锂离子电池市场现状与发展趋势[J]. 电池工业, 2019,23(4):216-223.
[15]	刘彦龙. 中国锂离子电池产业发展现状及市场发展趋势[J]. 电源技术, 2019,43(2):181-187.
[16]	宋丽萍. 六氟磷酸锂合成工艺[J]. 化工设计通讯, 2018,44(11):112-114.
[17]	宁延生. 六氟磷酸锂竞争时代已经到来[J]. 精细与专用化学品, 2012,20(4):45-47.
[18]	杨晓宏, 张在忠, 李军, 等. 六氟磷酸锂技术及市场分析[J]. 当代化工, 2012,41(9):972-973.
[19]	李文明. 六氟磷酸锂合成工艺研究进展[J]. 化工设计通讯, 2020,46(1):78,242.
[20]	崔小明. 六氟磷酸锂合成技术的研究进展[J]. 有机氟工业, 2019(2):42-44.

年份/年	新能源汽车销售量统计及预测/万辆		年份/年	新能源汽车销售量统计及预测/万辆
年份/年	中国	全球	年份/年	中国	全球
2018	122.0	192.4	2022E	230.0	500.0
2019	120.6	221.0	2023E	300.0	650.0
2020E	140.0	280.0	2024E	380.0	850.0
2021E	180.0	350.0	2025E	480.0	1 000.0

年份/年	预测全球各领域锂离子电池生产总量/GW·h
年份/年	数码	动力	储能	合计
2018	67.0	107.0	7.6	181.6
2019	74.0	118.0	9.0	201.0
2020E	81.0	135.0	11.4	227.4
2021E	89.0	190.0	14.0	293.0
2022E	98.0	265.0	18.0	381.0
2023E	108.0	360.0	22.0	490.0
2024E	118.0	480.0	28.0	626.0
2025E	130.0	650.0	35.0	815.0

年份/年	锂离子电池总量/GW·h	电解液需求量/万t	六氟磷酸锂需求量/万t
2018	181.6	21.0	2.8
2019	201.0	24.0	3.3
2020E	227.4	26.0	3.5
2021E	293.0	33.5	4.4
2022E	381.0	44.0	5.5
2023E	490.0	56.0	6.7
2024E	626.0	72.0	8.3
2025E	815.0	93.0	10.3

企业	产能/ （t·a^-1）	增产计划/ （t·a^-1）	备注
多氟多化工股份有限公司	9 000	—
江苏新泰材料科技有限公司	8 160	—
中蓝宏源新材料有限公司	5 000	—
江苏九九久科技有限公司	5 000	—
广州天赐高新材料股份有限公司	12 600	60 000	增液态产品
天津金牛电源材料有限责任公司	1 000	3 000
杉杉新材料（衢州）有限公司	2 000	—
浙江永泰科技股份有限公司	3 000	3 000
山东石大胜华新能源有限公司	2 000	3 000
滨化集团股份有限公司	1 000	—
赣州石磊新能源科技有限公司	2 600	8 000
广州金光高科股份有限公司	500	—
青海聚之源新材料有限公司	—	2 000
深圳比亚迪锂电池有限公司	200	6 000
福建龙德新能源股份有限公司	1 000	5 000
天祝宏氟锂业科技发展有限公司	—	1 000
森田化工（张家港）有限公司	5 000	5 000
衢州北斗星化学新材料有限公司	2 150	—
日本关东电化株式会社	5 400	—
日本中央硝子株式会社	500	—
厚成科技（南通）有限公司	3 400	—	中国
韩国蔚山化学株式会社	500	—	韩国
台湾台塑集团	200	—	中国台湾
合计	70 210	54 000	124 210

National Inorganic Salts Information Center

Inorganic Acid-Base-Salt Committee of CIESC

Market analysis of lithium hexafluorophosphate liquid electrolytes in lithium-ion battery

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