我国发展电动汽车大功率充电技术前景研究与分析
李杨1,李川1,黄炘1,王建波1,孙文嘉1,李晓1,孙吉生2,崔佳斌3
(1 中国汽车技术研究中心有限公司,天津 300300;2 启明信息技术股份有限公司,吉林 长春 130011;3 北京市产品质量监督检验院,北京 101300)
摘 要:基于电动汽车大功率充电技术及我国实际国情,从现有电动汽车充电相关政策、电动汽车用户、电动汽车制造企业、电动汽车用动力电池、电网系统、充电设施运营商、充电设施制造商、电动汽车充电用接口、城市整体规划以及国际发展几方面出发,对我国发展电动汽车大功率充电技术前景进行了系统的研究与分析。得出我国发展电动汽车大功率充电技术应分车型、分区域采取不同的发展策略,为进行电动汽车大功率充电技术预研及产品开发提供了理论支撑。
关键词:电动汽车;充电基础设施;大功率充电;应用场景;发展前景
中图分类号:TM910.5 文献标识码:A 文章编号:1007-3175(2018)05-0001-06
Future Research and Analysis of High Power Electric Vehicle Power Charging Technology in China
LI Yang1, LI Chuan1, HUANG Xin1, WANG Jian-bo1, SUN Wen-jia1, LI Xiao1, SUN Ji-sheng2, CUI Jia-bin3
(1 China Automotive Technology & Research Center Co., Ltd, Tianjin 300300, China;
2 Qiming Information Technology Co., Ltd, Changchun 130011 , China;
3 Beijing Products Quality Supervision and Inspection Institute, Beijing 101300, China)
Abstract: Based on high power electric vehicle charging technology combined with Chinese actual conditions, starting from the several aspects of electric vehicle charging related policies, electric car users, electric vehicles, electric vehicles manufacturing enterprises with power battery, power grid system, charging infrastructure operators, charging infrastructure manufacturers, electric vehicle charging interface, urban overall planning, and international development, this paper carried out systematic research and analysis of high power electric vehicle charging technology prospect in China. It is concluded that we should adopt different development strategies for the development of electric vehicle power charging technology according to the motorcycle types and regions, which provides theoretical support for advanced research and product development of electric vehicle power charging technology.
Key words: electric vehicle; charging infrastructure; high power charging; application scene; development prospect
参考文献
[1] GB/T 18487.1—2015 电动汽车传导充电系统 第1部分:通用要求[S].
[2] GB/T 20234.1—2015 电动汽车传导充电用连接装置第1 部分:通用要求[S].
[3] GB/T 20234.2—2015 电动汽车传导充电用连接装置第2 部分:交流充电接口[S].
[4] GB/T 20234.3—2015 电动汽车传导充电用连接装置第3 部分:直流充电接口[S].
[5] GB/T 27930—2015 电动汽车非车载传导式充电机与电池管理系统之间的的通信协议[S].
[6] 郑方丹,姜久春,孙丙香,韩智强,何婷婷. 基于筛选配组应用的动力电池综合性能评价方法研究[J]. 系统工程理论与实践,2015,35(2):528-536.
[7] 刘晓飞,张千帆,崔淑梅. 电动汽车V2G技术综述[J]. 电工技术学报,2012,27(2):121-127.
[8] 李婉璐. 电动汽车V2H能源管理与优化系统[J]. 黑龙江电力,2012,34(1):78-80.
[9] 项顶,宋永华,胡泽春,徐智威. 电动汽车参与V2G的最优峰谷电价研究[J]. 中国电机工程学报,2013,33(31):15-25.
[10] 任山, 黄炘, 张妍懿. 国内外电动汽车充电连接装置测试方法对比研究[J]. 科技创新与应用,2015(29):1-2.
