压缩空气储能系统的理论分析及性能研究

郭祚刚; 邓广义; 范永春; 陈光明; 郭祚刚; 邓广义; 范永春; 陈光明

doi:10.16516/j.gedi.issn2095-8676.2014.01.007

[1]

国家能源局．国家能源科技“十二五”规划(2011-2015)[R].2011.

National Energy Administration. Energy Technology Strategy of China(2011-2015)[R].2011.

[2]

李俊峰.2012中国风电发展报[R]．北京：中国环境科学出版社，2012.

LI Junfeng. China Wind Power Development Report 2012[R]. Beijing: China Environmental Press, 2012.

[3]

陈俊，司红建，周荣斌．抽水蓄能机组SFC系统保护关键技术[J]．电力自动化设备，2013，33(8)：167-171.

CHEN Jun, SI Hongjian, ZHOU Rongbin. Design of Intelligent High-voltage and Variable-frequency Power Source[J]. Electric Power Automation Equipment，2013，33(8)：167-171.

[4]

徐飞，陈磊，金和平．抽水蓄能电站与风电的联合优化运行建模及应用分析[J]．电力系统自动化，2013，37(1)：149-154.

XU Fei, CHEN Lei, JIN Heping. Modeling and Application Analysis of Optimal Joint Operation of Pumped Storage Power Station and Wind Power[J]. Automation of Electric Power Systems, 2013，37(1)：149-154.

[5]

戴兴建，邓占峰，刘刚．大容量先进飞轮储能电源技术发展状况[J]．电工技术学报，2011，26(7)：133-140.

DAI Xingjian, DENG Zhanfeng, LIU Gang. Review on Advanced Flywheel Energy Storage System With Large Scale[J]. Transactions of China Electro-technical Society，2011，26(7)：133-140.

[6]

张华民，张宇，刘宗浩．液流储能电池技术研究进展[J]．化学进展，2009，21(11)：2333-2340.

ZHANG uamin, ZHANG Yu, LIU Zonghao. Redox Flow Battery Technology[J]. Progress in Chemistry，2009，21(11)：2333-2340.

[7]

徐冬清，范永生，刘平．全钒液流电池复合材料双极板研究[J]．高校化学工程学报，2011，25(2)：308-313.

XU Dongqing, FAN Yongsheng, LIU Ping, Research of Composite Bipolar Plate Used for Vanadium Redox Flow Battery[J]. Journal of Chemical Engineering of Chinese Universities，2011.25(2)：308-313.

[8]

CHEN H，CONG T，YANG W. Progress in Electrical Energy Storage System：A Critical Review[J]．Progress in Natural Science，2009. 19(3): 291-312.

[9]

张新敬，陈海生，刘金超．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. Research Progress in Compressed Air Energy Storage System: A Review[J]. Energy Storage Science and Technology，2012，1(1)：26-40.

[10]

翟昕，俞小莉，刘忠民．压缩空气-燃油混合动力的研究[J]．浙江大学学报(工学版)，2006，40(4): 610-614.

ZHAI Xin, YU Xiaoli, LIU Zhongmin. Research on Hybrid of Compressed-air and Fuel[J]. Journal of Zhejiang University(Engineering Science)，2006，40(4): 610-614.

[11]

王雷，李道飞，叶锦. 车用发动机压缩空气制动循环特性[J]. 浙江大学学报(工学版), 2014, 48(1) 56-62.

WANG Lei, LI Daofei, YE Jin. Performances of Vehicle Engine Air Compression Braking[J]. Journal of Zhejiang University(Engineering Science)，2014, 48(1): 56-62.

[12]

CROTOGINO F，MOHMEYER K，SCHARF R．Huntorf CAES: More than 20 Years of Successful Operation [C]．Spring 2001 Meeting, Florida, USA, 2001.

[13]

MACK D．Something New in Power Technology[J]．Potentials, 1993. 12(2): 40-42.

[14]

California Public Utilities Commission. Decision Approving Application of Pacific Gas and Electric Company to Recover Smart Grid Costs Relating to a Compressed Air Energy Storage Demonstration Project[EB/OL] (2009-09-29)[2014-08-27]. http://docs.cpuc.ca.gov/word_pdf/AGENDA_DECISION/112582.pdf

[15]

MADRIGAL A. Bottled Wind Could be as Constant as Coal[EB/OL]. (2010-03-09)[2014-08-27]．http://www.wired.com/wiredscience/2010/03/compressed-air-plants/

[16]

徐玉杰，陈海生，刘佳．风光互补的压缩空气储能与发电一体化系统特性分析[J]．中国电机工程学报，2012，32(20)：88-95.

XU Yujie, CHEN Haisheng, LIU Jia. Performance Analysis on an Integrated System of Compressed Air Energy Storage and Electricity Production with Wind-solar Complementary Method[J]. Proceedings of the CSEE, 2012，32(20)：88-95.

[17]

SUNDARARAGAVAN S，BAKER E．Evaluating Energy Storage Technologies for Wind Power Integration[J]. Solar Energy, 2012，86(9): 2707-2717.

[18]

LUND H，SALGI G．The Role of Compressed Air Energy Storage (CAES) in Future Sustainable Energy Systems[J]. Energy Conversion and Management，2009，50(5)：1172-1179.

[19]

刘文毅．压缩空气蓄能(CAES)电站热力性能仿真分析[D]．北京：华北电力大学，2008.

LIU Wenyi. Thermal Performance and Simulation Analysis of Compressed Air Energy Storage (CAES)[D]. Beijing: North China Electric Power University, 2008.

[20]

刘文毅，杨勇平，宋之平．压缩空气蓄能(CAES)系统集成及性能计算[J]. 工程热物理学报，2005，26(增刊1)：25-28.

LIU Wenyi, YANG Yongping, SONG Zhiping. Optimization and Performance Simulation of Different CAES Systems[J]. Journal of Engineering Thermophysics，2005，26(Supp.1)：25-28.

[21]

杨科，张远，李雪梅．先进绝热压缩空气储能系统的设计计算[J]．工程热物理学报，2012，33(5)：725-728.

YANG Ke, ZHANG Yuan, LI Xuemei. Design and Calculation of Advanced Adiabatic Compressed Air Energy Storage System[J]. Journal of Engineering Thermophysics，2012，33(5)：725-728.

[22]

刘佳，夏红德，陈海生．新型液化空气储能技术及其在风电领域的应用[J]．工程热物理学报，2010，31(12)：1993-1996.

LIU Jia, XIA Hongde, CHEN Haisheng. A Novel Energy Storage Technology Based on Liquid Air and Its Application in Wind Power[J]. Journal of Engineering Thermophysics，2010，31(12)：1993-1996.

[1]	国家能源局．国家能源科技“十二五”规划(2011-2015)[R].2011. National Energy Administration. Energy Technology Strategy of China(2011-2015)[R].2011.
[2]	李俊峰.2012中国风电发展报[R]．北京：中国环境科学出版社，2012. LI Junfeng. China Wind Power Development Report 2012[R]. Beijing: China Environmental Press, 2012.
[3]	陈俊，司红建，周荣斌．抽水蓄能机组SFC系统保护关键技术[J]．电力自动化设备，2013，33(8)：167-171. CHEN Jun, SI Hongjian, ZHOU Rongbin. Design of Intelligent High-voltage and Variable-frequency Power Source[J]. Electric Power Automation Equipment，2013，33(8)：167-171.
[4]	徐飞，陈磊，金和平．抽水蓄能电站与风电的联合优化运行建模及应用分析[J]．电力系统自动化，2013，37(1)：149-154. XU Fei, CHEN Lei, JIN Heping. Modeling and Application Analysis of Optimal Joint Operation of Pumped Storage Power Station and Wind Power[J]. Automation of Electric Power Systems, 2013，37(1)：149-154.
[5]	戴兴建，邓占峰，刘刚．大容量先进飞轮储能电源技术发展状况[J]．电工技术学报，2011，26(7)：133-140. DAI Xingjian, DENG Zhanfeng, LIU Gang. Review on Advanced Flywheel Energy Storage System With Large Scale[J]. Transactions of China Electro-technical Society，2011，26(7)：133-140.
[6]	张华民，张宇，刘宗浩．液流储能电池技术研究进展[J]．化学进展，2009，21(11)：2333-2340. ZHANG uamin, ZHANG Yu, LIU Zonghao. Redox Flow Battery Technology[J]. Progress in Chemistry，2009，21(11)：2333-2340.
[7]	徐冬清，范永生，刘平．全钒液流电池复合材料双极板研究[J]．高校化学工程学报，2011，25(2)：308-313. XU Dongqing, FAN Yongsheng, LIU Ping, Research of Composite Bipolar Plate Used for Vanadium Redox Flow Battery[J]. Journal of Chemical Engineering of Chinese Universities，2011.25(2)：308-313.
[8]	CHEN H，CONG T，YANG W. Progress in Electrical Energy Storage System：A Critical Review[J]．Progress in Natural Science，2009. 19(3): 291-312.
[9]	张新敬，陈海生，刘金超．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. Research Progress in Compressed Air Energy Storage System: A Review[J]. Energy Storage Science and Technology，2012，1(1)：26-40.
[10]	翟昕，俞小莉，刘忠民．压缩空气-燃油混合动力的研究[J]．浙江大学学报(工学版)，2006，40(4): 610-614. ZHAI Xin, YU Xiaoli, LIU Zhongmin. Research on Hybrid of Compressed-air and Fuel[J]. Journal of Zhejiang University(Engineering Science)，2006，40(4): 610-614.
[11]	王雷，李道飞，叶锦. 车用发动机压缩空气制动循环特性[J]. 浙江大学学报(工学版), 2014, 48(1) 56-62. WANG Lei, LI Daofei, YE Jin. Performances of Vehicle Engine Air Compression Braking[J]. Journal of Zhejiang University(Engineering Science)，2014, 48(1): 56-62.
[12]	CROTOGINO F，MOHMEYER K，SCHARF R．Huntorf CAES: More than 20 Years of Successful Operation [C]．Spring 2001 Meeting, Florida, USA, 2001.
[13]	MACK D．Something New in Power Technology[J]．Potentials, 1993. 12(2): 40-42.
[14]	California Public Utilities Commission. Decision Approving Application of Pacific Gas and Electric Company to Recover Smart Grid Costs Relating to a Compressed Air Energy Storage Demonstration Project[EB/OL] (2009-09-29)[2014-08-27]. http://docs.cpuc.ca.gov/word_pdf/AGENDA_DECISION/112582.pdf
[15]	MADRIGAL A. Bottled Wind Could be as Constant as Coal[EB/OL]. (2010-03-09)[2014-08-27]．http://www.wired.com/wiredscience/2010/03/compressed-air-plants/
[16]	徐玉杰，陈海生，刘佳．风光互补的压缩空气储能与发电一体化系统特性分析[J]．中国电机工程学报，2012，32(20)：88-95. XU Yujie, CHEN Haisheng, LIU Jia. Performance Analysis on an Integrated System of Compressed Air Energy Storage and Electricity Production with Wind-solar Complementary Method[J]. Proceedings of the CSEE, 2012，32(20)：88-95.
[17]	SUNDARARAGAVAN S，BAKER E．Evaluating Energy Storage Technologies for Wind Power Integration[J]. Solar Energy, 2012，86(9): 2707-2717.
[18]	LUND H，SALGI G．The Role of Compressed Air Energy Storage (CAES) in Future Sustainable Energy Systems[J]. Energy Conversion and Management，2009，50(5)：1172-1179.
[19]	刘文毅．压缩空气蓄能(CAES)电站热力性能仿真分析[D]．北京：华北电力大学，2008. LIU Wenyi. Thermal Performance and Simulation Analysis of Compressed Air Energy Storage (CAES)[D]. Beijing: North China Electric Power University, 2008.
[20]	刘文毅，杨勇平，宋之平．压缩空气蓄能(CAES)系统集成及性能计算[J]. 工程热物理学报，2005，26(增刊1)：25-28. LIU Wenyi, YANG Yongping, SONG Zhiping. Optimization and Performance Simulation of Different CAES Systems[J]. Journal of Engineering Thermophysics，2005，26(Supp.1)：25-28.
[21]	杨科，张远，李雪梅．先进绝热压缩空气储能系统的设计计算[J]．工程热物理学报，2012，33(5)：725-728. YANG Ke, ZHANG Yuan, LI Xuemei. Design and Calculation of Advanced Adiabatic Compressed Air Energy Storage System[J]. Journal of Engineering Thermophysics，2012，33(5)：725-728.
[22]	刘佳，夏红德，陈海生．新型液化空气储能技术及其在风电领域的应用[J]．工程热物理学报，2010，31(12)：1993-1996. LIU Jia, XIA Hongde, CHEN Haisheng. A Novel Energy Storage Technology Based on Liquid Air and Its Application in Wind Power[J]. Journal of Engineering Thermophysics，2010，31(12)：1993-1996.