Research progress in economic study of energy storage

doi:10.12028/j.issn.2095-4239.2017.0116

Abstract

Abstract: Energy storage plays different roles in the conventional power system, renewable energy power generation, distributed power generation and micro-network, auxiliary services, and thus different income model and economic evaluation methods are used. Economics researche of energy storage technology in domestic and international is still at early stage, and a mature economic evaluation system is still absent. In this paper, the current situation economics research of energy storage in domestic and international, the value and benefit of energy storage in power system, and the research trend of energy storage economy are analyzed.

Key words: energy storage, economic evaluation, power system, revenue model

LIU Chang1, XU Yujie1, ZHANG Jing2, HU Shan1, YUE Fen2, DING Jie1, 3, CHEN Haisheng1,3. Research progress in economic study of energy storage[J]. Energy Storage Science and Technology, 2017, 6(5): 1084-1093.

References

[1] Energy Storage Council. Energy storage, the missing link in the electricity value chain. An ESC white paper[R]. 2002.
[2] CHEN Haisheng, CONG Ngoc Thang, YANG Wei, et al. Progress in electrical energy storage system——A critical review[J]. Progress in Natural Science, 2009, 19(3): 291-312.
[3] LUO Xing, WANG Jihong, DOONER Mark, et al. Overview of current develoment in electrical energy storage technologies and the application potential in power system operation[J]. Applied Energy, 2015, 137: 511-536.
[4] 张新敬, 陈海生, 刘金超, 等. 压缩空气储能技术研究进展[J]. 储能科学与技术, 2012, 1(1): 26-40.
ZHANG Xinjing, CHEN Haisheng, LIU Jinchao, et al. Research progress in compressed air energy storage system: A review[J]. Energy Storage Science and Technology, 2012, 1(1): 26-40.
[5] 中关村储能产业技术联盟储能专业委员会. 储能产业研究白皮书2012[R]. 2012.
[6] 中关村储能产业技术联盟储能专业委员会. 储能产业研究白皮书2013[R]. 2013.
[7] 中关村储能产业技术联盟储能专业委员会. 储能产业研究白皮书2014[R]. 2014.
[8] 中关村储能产业技术联盟储能专业委员会. 储能产业研究白皮书2015[R]. 2015.
[9] 国家电网公司电网新技术前景研究项目咨询组. 大规模储能技术在电力系统中的应用前景分析[J]. 电力系统自动化, 2012, 37: 3-8.
[10] GORAN Strbac, MARKO Aunedi, DANNY Pudjianto, et al. Strategic assessment of the role and value of energy storage systems in the UK low carbon energy future[R]. Report for Carbon Trust, 2012.
[11] JIM E. Energy storage for the electricity grid: Benefits and market potential assessment guide[R]. California and Garth Corey: Sandia National Laboratories, 2010.
[12] EPR I. Product abstract – energy storage valuation tool (ESVT) version 3.1[EB/OL]. http://www.epri.com/abstracts/Pages/ProductAbstract.aspx? ProductId=000000003002000312
[13] JEFF S J. EPRI’s cool new grid-scale energy storage tool[EB/OL]. 2013. http://www.greentechmedia.com/articles/read/EPRIs-cool-new-grid- scale-energy-storage-tool
[14] DNV G L. Analysing business models for successful developments in energy storage[J]. Energy Storage Conference, Paris, 2016.
[15] VALERO A, SERRA L, UCHE J. Fundamentals of exergy cost accounting and thermoeconomics. Part I: Theory[J]. Journal of Energy Resources Technology, 2006, 128: 1-8.
[16] VALERO A, SERRA L, UCHE J. Fundamentals of exergy cost accounting and thermoeconomics. Part II: Applications[J]. Journal of Energy Resources Technology, 2006, 128: 9-15.
[17] 王加璇, 王清照, 宋乃辉. 热经济学研究的使命与任务[J]. 热能动力工程, 2002, 17(2): 111-114.
WANG Jiaxuan, WANG Qingzhao, SONG Naihui. Mission and assignments of thermoeconomics research[J]. Journal of Engineering for Thermal Energy and Power, 2002, 17(2): 111-114.
[18] 王加璇, 张恒良. 动力工程热经济学[M]. 北京: 水利水电出版社, 1995.
[19] REINHARD M, JOCHEN L. Economics of centralized and decentralized compressed air energy storage for enhanced grid integration of wind power[J]. Applied Energy, 2013, 101: 299-309.
[20] EMILY F, JAY A. Economics of compressed air energy storage to integrate wind power: A case study in ERCOT[J]. Energy Policy, 2011, 39: 2330-2342.
[21] AUDRIUS B, NICK J. Exergy and exergoeconomic analysis of a compressed air energy storage combined with a district energy system [J]. Energy Conversion and Management, 2014, 77: 432-440.
[22] TZAMALIS G, ZOULIAS E, STAMATAKIS E, et al. Techno-economic analysis of an autonomous power system integrating hydrogen technology as energy storage medium[J]. Renew Energy, 2007, 39(3): 118-124.
[23] AHMET Y. The operational economics of compressed air energy storage systems under uncertainty[J]. Renewable and Sustainable Energy Reviews, 2013, 22: 298-305.
[24] 杨裕生, 程杰, 曹高萍. 规模储能装置经济效益的判据[J]. 电池, 2011, 41(1): 19-21.
YANG Yusheng, CHENG Jie, CAO Gaoping. Agauge for direct technomic benefits of energy storage devices[J]. Battery Bimonthly, 2011, 41(1): 19-21.
[25] YANG Yusheng. Renewable energy and large scale energy storage technologies[C]//2012 International Conference on Materials for Renewable Energy & Environment, Beijing, 2012.
[26] 潘艳珠. 工程技术经济[M]. 北京: 机械工业出版社, 2012.
[27] 刘晓君. 技术经济学[M]. 北京: 科学出版社, 2013.
[28] 游达明. 技术经济与项目经济评价[M]. 北京: 清华大学出版社, 2009.
[29] 郑建国. 技术经济分析[M]. 北京: 中国纺织出版社, 2008.
[30] 国家发展和改革委员会, 建设部. 建设项目经济评价方法与参数[M]. 北京: 中国计划出版社.
[31] YAN Xiaohui, ZHANG Xuehui, CHEN Haisheng, et al. Techno-economic and social analysis of energy storage for commercial buildings[J]. Energy Conversion and Management, 2014, 78: 125-136.
[32] 刘畅, 徐玉杰, 胡珊, 陈海生. 压缩空气储能电站技术经济性分析[J]. 储能科学与技术, 2015, 4(2): 158-168.
LIU Chang, XU Yujie, HU Shan, CHEN Haisheng. Techno-economic analysis of compressed air energy storage power plant[J]. Energy Storage Science and Technology, 2015, 4(2): 158-168.
[33] 鹿院卫, 刘广林, 马重芳, 等. 压缩空气蓄能系统热经济学分析[J]. 热能动力工程, 2011, 26(4): 397-401.
LU Yuanwei, LIU Guanglin, MA Chongfang, et al. Thermo-economic comparison of compressed air energy storage systems[J]. Journal of Engineering for Thermal Energy and Power, 2011, 26(4): 397-401.
[34] 何青, 刘辉, 刘文毅. 风电-压缩空气储能系统㶲和㶲成本分析模型[J]. 热力发电, 2016, 45(2): 34-39.
HE Qing, LIU Hui, LIU Wenyi. Exergy and exergy cost analysis model for wind-compressed air energy storage system[J]. Thermal Power Generation, 2016, 45(2): 34-39.
[35] 程伟良, 陈党慧, 徐寿臣, 等. 火电机组的热经济性分析[J]. 动力工程, 2004, 24(4): 580-583.
CHENG Weiliang, CHEN Danghui, XU Shouchen, et al. Economic analysis of thermal power plant[J]. Power Engineering, 2004, 24(4): 580-583.
[36] 程伟良, 黄其励. 热经济学的结构理论及其应用[J]. 哈尔滨工业大学学报, 2005, 37(10): 1388-1390.
CHENG Weiliang, HUANG Qili. Structure theory of thermo economics and its applications[J]. Journal of Harbin Institute of Technology, 2005, 37(10): 1388-1390.
[37] 刘文毅, 杨勇平. 压缩空气蓄能电站综合效益评价研究[J]. 工程热物理学报, 2007, 28(3): 373-375.
LIU Wenyi, YANG Yongping. Caoculations and analysis of overall benefit for compressed air energy storage(caes) power plant[J]. Journal of Engineering Thermophysics, 2007, 28(3): 373-375.
[38] 张静. 2015年储能市场盘点——一个蓄势待发的产业[J]. 储能科学与技术, 2016, 5(1): 58-64.
ZHANG Jing. 2015 energy storage market inventory——A potential industry[J]. Energy Storage Science and Technology, 2016, 5(1): 58-64.
[39] 丁明, 陈忠, 苏建徽, 等. 可再生能源发电中的电池储能系统综述[J]. 电力系统自动化, 2013, 37(1): 19-25, 102.
DING Ming, CHEN Zhong, SU Jianhui, et al. An overview of battery energy storage system for renewable energy generation[J]. Automation of Electric Power Systems, 2013, 37(1): 19-25, 102.
[40] International Energy Agency. Technology roadmap——Energy storage[R]. 2014. https://www.iea.org/publications/freepublications/ publication/technology-roadmap-energy-storage-.html
[41] 孙晓斌, 孙艳玲. 储能装置的价值评估[J]. 河南科技, 2013(8): 103.
SUN Xiaobin, SUN Yanling. Evaluation of the energy storage mechanism[J]. Journal of Henan Science and Technology, 2013(8): 103.
[42] CRITIGINO F，MOHMEYER K U，SCHARF R. Huntorf CAES：More than 20 years of successful operation[C]//Solution Mining Research Institute, 2001.
[43] NAKHAMKIN M, ANDERSSON L, SWENSEN E, et al. AEC 110MW CAES plant; Status of project[J]. Journal of Engineering for Gas Turbines & Power, 1990, 114(4): 695-700.
[44] BARRIE M. Power markets and economics: Energy costs, trading, emissions[M]. Shanghai: Shanghai University of Finance and Economics Press, 2013.