2022 04 v.40 3-12
基于新型电力系统的储能技术研究
基金项目(Foundation):
国家自然科学基金(52107218)
邮箱(Email):
DOI:
10.19929/j.cnki.nmgdljs.2022.0058
中文作者单位:
中国矿业大学电气工程学院;
摘要(Abstract):
介绍了储能技术的分类、技术发展及其在新型电力系统的应用情况。基于新型电力系统的特征,从储能技术工作原理、研究现状及关键技术、优缺点、技术难点、未来的发展趋势等方面分析和研究了应用较多的各种储能技术,包括抽水储能技术、飞轮储能技术、压缩空气储能技术、锂电池储能技术、铅酸电池储能技术、氢储能技术、超导储能技术及超级电容储能技术,通过对比分析得出各类储能技术适合应用的最佳场合、技术存在的缺陷以及未来的研究发展方向等。
关键词(KeyWords):
储能技术;新型电力系统;关键技术;技术缺陷;发展趋势
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参考文献
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[2]赵剑波,王蕾.“十四五”构建以新能源为主体的新型电力系统[J].中国能源,2021,43(5):17-21.
[3]王枫,周斌,张辉.“双碳”背景下源网荷储协调互动助力新型电力系统建设[J].中国资源综合利用,2022,40(5):188-191,201.WANG Feng, ZHOU Bin, ZHANG Hui. Generation-GridLoad-Storage Coordination and Interaction Assists Construction of New Power System Under the Background of"Double Carbon"[J]. China Resources Comprehensive Utilization, 2022, 40(5):188-191, 201.
[4]姜海洋,杜尔顺,朱桂萍,等.面向高比例可再生能源电力系统的季节性储能综述与展望[J].电力系统自动化,2020,44(19):194-207.JIANG Haiyang, DU Ershun, ZHU Guiping, et al.Review and Prospect of Seasonal Energy Storage for Power System with High Proportion of Renewable Energy[J]. Automation of Electric Power Systems, 2020, 44(19):194-207.
[5] Zarrilli D, Giannitrapani A, Paoletti S, et al. Energy storage operation for voltage control in distribution networks:a receding horizon approach[J]. IEEE Transactions on Control Systems Technology, 2018, 26(2):599-609.
[6]卓振宇,张宁,谢小荣,等.高比例可再生能源电力系统关键技术及发展挑战[J].电力系统自动化,2021,45(9):171-191.ZHUO Zhenyu, ZHANG Ning, XIE Xiaorong, et al.Key Technologies and Developing Challenges of Power System with High Proportion of Renewable Energy[J].Automation of Electric Power Systems, 2021, 45(9):171-191.
[7]李宏基,郑伟,刘成功,等.分布式可再生能源接入对配电网电压分布的影响分析[J].机电工程技术,2018,47(4):146-148.LI Hongji, ZHENG Wei, LIU Chenggong, et al. Influence of Voltage Distribution of Distributed Renewable Energy Access on Distribution Network[J]. Mechanical&Electrical Engineering Technology, 2018, 47(4):146-148.
[8]蔡绍宽.新型电力系统下的储能解决方案探讨[J].南方能源建设,2022,9(增刊1):17-23.CAI Shaokuan. Discussion on Energy Storage Solutions Under the New Power System[J]. Southern Energy Construction, 2022, 9(S1):17-23.
[9]崔俊举.新型电力系统中储能技术的创新发展研究[J].光源与照明,2021(6):127-129.
[10]任大伟,侯金鸣,肖晋宇,等.能源电力清洁化转型中的储能关键技术探讨[J].高电压技术,2021,47(8):2751-2759.REN Dawei, HOU Jinming, XIAO Jinyu, et al. Exploration of Key Technologies for Energy Storage in the Cleansing Transformation of Energy and Power[J]. High Voltage Engineering, 2021, 47(8):2751-2759.
[11]杨海森.多重应用场景下的新能源电力系统储能技术[J].光源与照明,2021(7):99-100,138.
[12]赵永来.含有混合储能的微电网控制策略研究[J].东北电力技术,2018,39(3):5-11.ZHAO Yonglai. Research on Control Strategy for Microgrid with Hybrid Energy Storage System[J].Northeast Electric Power Technology, 2018, 39(3):5-11.
[13]孙玉树,杨敏,师长立,等.储能的应用现状和发展趋势分析[J].高电压技术,2020,46(1):80-89.SUN Yushu, YANG Min, SHI Changli, et al. Analysis of Application Status and Development Trend of Energy Storage[J]. High Voltage Engineering, 2020, 46(1):80-89.
[14]罗星,王吉红,马钊.储能技术综述及其在智能电网中的应用展望[J].智能电网,2014,2(1):7-12.LUO Xing, WANG Jihong, MA Zhao. Overview of Energy Storage Technologies and Their Application Prospects in Smart Grid[J]. Smart Grid, 2014, 2(1):7-12.
[15]谢东亮,薛峰,宋晓芳.直流互联下含储电力系统调峰的优化及仿真分析[J].电力系统自动化,2018,42(5):72-79.XIE Dongliang, XUE Feng, SONG Xiaofang. Optimization and Simulation Analysis of Peak Shaving for DC Interconnected Power System with Energy Storage[J]. Automation of Electric Power Systems, 2018, 42(5):72-79.
[16]中国能源研究会储能专委会.储能产业研究白皮书2021年三季度数据[Z].北京:中国能源研究会储能专委会,2021.
[17]张雷,姜茜.物理方式电力储能系统的现状和发展[J].东方电气评论,2018,32(1):83-88.ZHANG Lei, JIANG Qian. Present Status and Development of Physical Mode Based on Electric Energy Storage System[J]. Dongfang Electric Review, 2018, 32(1):83-88.
[18]许守平,李相俊,惠东.大规模储能系统发展现状及示范应用综述[J].电网与清洁能源,2013,29(8):94-100,108.XU Shouping, LI Xiangjun, HUI Dong. A Survey of the Development and Demonstration Application of Large-Scale Energy Storage[J]. Advances of Power System&Hydroelectric Engineering,2013,29(8):94-100,108.
[19]刘文军,贾东强,曾昊旻,等.飞轮储能系统的发展与工程应用现状[J].微特电机,2021,49(12):52-58.LIU Wenjun, JIA Dongqiang, ZENG Haomin, et al.Development and Engineering Application Status of Flywheel Energy Storage System[J]. Small&Special Electrical Machines, 2021, 49(12):52-58.
[20]薛天茂,黄建祥,陈刚,等.磁悬浮飞轮储能技术在应急电源车上的应用[J].机电技术,2021(5):111-113.
[21]俞思源,胡雄心,胡勇军.一种适用于微网的磁悬浮储能飞轮的设计[J].机电工程技术,2022,51(4):201-206.YU Siyuan, HU Xiongxin, HU Yongjun. Design of a Magnetic Levitation Energy Storage Flywheel for Microgrid[J]. Mechanical&Electrical Engineering Technology, 2022, 51(4):201-206.
[22]梅生伟,薛小代,陈来军.压缩空气储能技术及其应用探讨[J].南方电网技术,2016,10(3):11-15,31.MEI Shengwei, XUE Xiaodai, CHEN Laijun. Discussion on Compressed Air Energy Storage Technology and Its Application[J]. Southern Power System Technology, 2016, 10(3):11-15, 31.
[23]张彪,李阳海,曹泉.压缩空气储能系统建模、仿真和控制研究综述[J].湖北电力,2022,46(3):1-6.ZHANG Biao, LI Yanghai, CAO Quan. Review on Modeling, Simulation and Control of Compressed Air Energy Storage System[J]. Hubei Electric Power,2022, 46(3):1-6.
[24]白锦文,谭奇特.锂电池储能技术发展方向[J].光源与照明,2021(12):51-53.
[25]梁继业,迟浩宇,张洪彦.锂电池在储能领域的应用与发展趋势[J].电动工具,2020(5):20-22,26.LIANG Jiye, CHI Haoyu, ZHANG Hongyan. Application and Development Trend of Lithium Battery in Energy Storage Field[J]. Electrokinetic Tool, 2020(5):20-22, 26.
[26]李泓,吕迎春.电化学储能基本问题综述[J].电化学,2015,21(5):412-424.LI Hong, LYU Yingchun. A Review on Electrochemical Energy Storage[J]. Journal of Electrochemistry,2015, 21(5):412-424.
[27]张利中,赵书奇,廖强强,等.国内外电池储能技术的应用及发展现状[J].上海节能,2015(10):519-523.ZHANG Lizhong, ZHAO Shuqi, LIAO Qiangqiang, et al. Application and Current Development of Battery Energy Storage Technology in China and Overseas Countries[J]. Shanghai Energy Conservation,2015(10):519-523.
[28]张娟.铅酸电池储能系统建模与应用研究[D].长沙:湖南大学,2013.
[29]许传博,刘建国.氢储能在我国新型电力系统中的应用价值、挑战及展望[J].中国工程科学,2022,24(3):89-99.XU Chuanbo, LIU Jianguo. Hydrogen Energy Storage in China's New-Type Power System:Application Value,Challenges, and Prospects[J]. Strategic Study of CAE,2022, 24(3):89-99.
[30]陈蔼峻.氢储能技术特点和应用展望[J].中国高新科技,2021(19):120-121.
[31]霍现旭,王靖,蒋菱,等.氢储能系统关键技术及应用综述[J].储能科学与技术,2016,5(2):197-203.HUO Xianxu, WANG Jing, JIANG Ling, et al. Review on key technologies and applications of hydrogen energy storage system[J]. Energy Storage Science and Technology, 2016, 5(2):197-203.
[32]墨柯.超导储能技术及产业发展简介[J].新材料产业,2013(9):61-65.
[33]曹雨军,夏芳敏,朱红亮,等.超导储能在新能源电力系统中的应用与展望[J].电工电气,2021(10):1-6,26.CAO Yujun, XIA Fangmin, ZHU Hongliang, et al.Application and Prospect of Superconducting Energy Storage in New Energy Power System[J]. Electrotechnics Electric, 2021(10):1-6, 26.
[34] WANG L, CHEN S S, LEE W J, et al. Dynamic stabilityenhancement and power flow control of a hybrid wind and marine-current farm using SMES[J]. IEEE Transactions on Energy Conversion, 2009, 24(3):626-639.
[35]张芳.超级电容储能系统效率提升方法研究[D].太原:太原理工大学,2021.
[36]吴志程,朱俊杰,许金,等.电磁发射用“锂电池-超级电容”混合储能技术研究综述[J].电机与控制应用,2021,48(3):1-6.WU Zhicheng, ZHU Junjie, XU Jin, et al. Review of"Lithium Battery-Supercapacitor"Hybrid Energy Storage Technology for Electromagnetic Launch[J]. Electric Machines&Control Application, 2021, 48(3):1-6.
[37]聂开俊,龚希宾,朱泉.超级电容与锂离子电池混合储能技术的发展[J].蓄电池,2019,56(3):101-105.NIE Kaijun, GONG Xibin, ZHU Quan. Advances of supercapacitor-lithium-ion battery hybrid energy storage techniques[J]. Chinese Labat Man, 2019, 56(3):101-105.
基本信息:
DOI:10.19929/j.cnki.nmgdljs.2022.0058
中图分类号:TM73;TK02
引用信息:
[1]夏晨阳,杨子健,周娟等.基于新型电力系统的储能技术研究[J].内蒙古电力技术,2022,40(04):3-12.DOI:10.19929/j.cnki.nmgdljs.2022.0058.
基金信息:
国家自然科学基金(52107218)
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