| [1] | TER-GAZARIAN A G. Energy storage for power systems [M]. London: Institution of Engineering and Technology, 2011. |
| [2] | 中国能源研究会储能专委会, 中关村储能产业技术联盟. 储能产业发展蓝皮书 [M]. 北京: 中国石化出版社, 2019. Energy Storage Special Committee of the National Energy Research Association, Zhongguancun Energy Storage Industry Technology Alliance. Blue book on the development of energy storage industry [M]. Beijing: China Petrochemical Press, 2019. |
| [3] | TONG Z M, CHENG Z W, TONG S G. A review on the development of compressed air energy storage in China: technical and economic challenges to commercialization [J]. Renewable and sustainable energy reviews, 2021, 135: 110178. DOI: 10.1016/j.rser.2020.110178. |
| [4] | 梅生伟, 张通, 张学林, 等. 非补燃压缩空气储能研究及工程实践——以金坛国家示范项目为例 [J]. 实验技术与管理, 2022, 39(5): 1-8,14. DOI: 10.16791/j.cnki.sjg.2022.05.001. MEI S W, ZHANG T, ZHANG X L, et al. Research and engineering practice of non-supplementary combustion compressed air energy storage: taking Jintan national demonstration project as an example [J]. Experimental technology and management, 2022, 39(5): 1-8,14. DOI: 10.16791/j.cnki.sjg.2022.05.001. |
| [5] | 郑琼, 江丽霞, 徐玉杰, 等. 碳达峰、碳中和背景下储能技术研究进展与发展建议 [J]. 中国科学院院刊, 2022, 37(4): 529-540. DOI: 10.16418/j.issn.1000-3045.20220311001. ZHENG Q, JIANG L X, XU Y J, et al. Research progress and development suggestions of energy storage technology under background of carbon peak and carbon neutrality [J]. Bulletin of Chinese academy of sciences, 2022, 37(4): 529-540. DOI: 10.16418/j.issn.1000-3045.20220311001. |
| [6] | 万明忠, 纪文栋, 商浩亮, 等. 压缩空气储能地下盐穴物探关键问题及处理技术 [J]. 南方能源建设, 2023(10): 26-31. DOI: 10.16516/j.gedi.issn2095-8676.2023.02.004. WAN M Z, JI W D, SHANG H L. Key problems and techniques of geophysical exploration in underground salt cavern for compressed air energy storage [J]. Southern energy construction, 2023(10): 26-31. DOI: 10.16516/j.gedi.issn2095-8676.2023.02.004. |
| [7] | 郭丁彰, 尹钊, 周学志, 等. 压缩空气储能系统储气装置研究现状与发展趋势 [J]. 储能科学与技术, 2021, 10(5): 1486-1493. DOI: 10.19799/j.cnki.2095-4239.2021.0356. GUO D Z, YIN Z, ZHOU X Z, et al. Status and prospect of gas storage device in compressed air energy storage system [J]. Energy storage science and technology, 2021, 10(5): 1486-1493. DOI: 10.19799/j.cnki.2095-4239.2021.0356. |
| [8] | KIM H M, RUTQVIST J, RYU D W, et al. Exploring the concept of compressed air energy storage (CAES) in lined rock caverns at shallow depth: a modeling study of air tightness and energy balance [J]. Applied energy, 2012, 92: 653-667. DOI: 10.1016/j.apenergy.2011.07.013. |
| [9] | 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(4): 3-12. DOI: 10.19929/j.cnki.nmgdljs.2022.0058. XIA C Y, YANG Z J, ZHOU J, et al. Research of energy storage technology based on new power system [J]. Inner Mongolia electric power, 2022, 40(4): 3-12. DOI: 10.19929/j.cnki.nmgdljs.2022.0058. |
| [10] | 郭朝斌, 李采, 杨利超, 等. 压缩空气地质储能研究现状及工程案例分析 [J]. 中国地质调查, 2021, 8(4): 109-119. DOI: 10.19388/j.zgdzdc.2021.04.12. GUO C B, LI C, YANG L C, et al. Research review and engineering case analysis of geological compressed air energy storage [J]. Geological survey of China, 2021, 8(4): 109-119. DOI: 10.19388/j.zgdzdc.2021.04.12. |
| [11] | 王富强, 王汉斌, 武明鑫, 等. 压缩空气储能技术与发展 [J]. 水力发电, 2022, 48(11): 10-15. DOI: 10.3969/j.issn.0559-9342.2022.11.003. WANG F Q, WANG H B, WU M X, et al. Compressed air energy storage technology and development [J]. Water power, 2022, 48(11): 10-15. DOI: 10.3969/j.issn.0559-9342.2022.11.003. |
| [12] | 郝佳豪, 越云凯, 张家俊, 等. 二氧化碳储能技术研究现状与发展前景 [J]. 储能科学与技术, 2022, 11(10): 3285-3296. DOI: 10.19799/j.cnki.2095-4239.2022.0199. HAO J H, YUE Y K, ZHANG J J, et al. Research status and development prospect of carbon dioxide energy-storage technology [J]. Energy storage science and technology, 2022, 11(10): 3285-3296. DOI: 10.19799/j.cnki.2095-4239.2022.0199. |
| [13] | ZHANG Y, WU Y T, YANG K. Dynamic characteristics of a two-stage compression and two-stage expansion compressed carbon dioxide energy storage system under sliding pressure operation [J]. Energy conversion and management, 2022, 254: 115218. DOI: 10.1016/j.enconman.2022.115218. |
| [14] | 张瀚舟, 闫晶, 王晓晖, 等. 新型电力系统在工业园区层面的实践和启示 [J]. 上海节能, 2022(8): 942-945. DOI: 10.13770/j.cnki.issn2095-705x.2022.08.001. ZHANG H Z, YAN J, WANG X H, et al. Practice and enlightenment of new electric power system in industrial park [J]. Shanghai energy conservation, 2022(8): 942-945. DOI: 10.13770/j.cnki.issn2095-705x.2022.08.001. |
| [15] | 杨春和, 王同涛. 深地储能研究进展 [J]. 岩石力学与工程学报, 2022, 41(9): 1729-1759. DOI: 10.13722/j.cnki.jrme.2022.0829. YANG C H, WANG T T. Advance in deep underground energy storage [J]. Chinese journal of rock mechanics and engineering, 2022, 41(9): 1729-1759. DOI: 10.13722/j.cnki.jrme.2022.0829. |
| [16] | 蒋中明, 唐栋, 李鹏, 等. 压气储能地下储气库选型选址研究 [J]. 南方能源建设, 2019, 6(3): 6-16. DOI: 10.16516/j.gedi.issn2095-8676.2019.03.002. JIANG Z M, TANG D, LI P, et al. Research on selection method for the types and sites of underground repository for compressed air storage [J]. Southern energy construction, 2019, 6(3): 6-16. DOI: 10.16516/j.gedi.issn2095-8676.2019.03.002. |
| [17] | HOUSSAINY S, JANBOZORGI M, KAVEHPOUR P. Theoretical performance limits of an isobaric hybrid compressed air energy storage system [J]. Journal of energy resources technology, 2018, 140(10): 101201. DOI: 10.1115/1.4040060. |
| [18] | DENG K Y, ZHANG K, XUE X R, et al. Design of a new compressed air energy storage system with constant gas pressure and temperature for application in coal mine roadways [J]. Energies, 2019, 12(21): 4188. DOI: 10.3390/en12214188. |
| [19] | 郑开云, 池捷成, 张学锋. 耦合抽水蓄能的压缩空气储能电站概念研究 [J]. 南方能源建设, 2023, 10(2): 18-25. DOI: 10.16516/j.gedi.issn2095-8676.2023.02.003. ZHENG K Y, CHI J C, ZHANG X F. Concept research of compressed air energy storage power plant coupled with pumped hydro storage [J]. Southern energy construction, 2023, 10(2): 18-25. DOI: 10.16516/j.gedi.issn2095-8676.2023.02.003. |
| [20] | 张玮灵, 古含, 章超, 等. 压缩空气储能技术经济特点及发展趋势 [J]. 储能科学与技术, 2023, 12(4): 1295-1301. DOI: 10.19799/j.cnki.2095-4239.2022.0645. ZHANG W L, GU H, ZHANG C, et al. Technical economic characteristics and development trends of compressed air energy storage [J]. Energy storage science and technology, 2023, 12(4): 1295-1301. DOI: 10.19799/j.cnki.2095-4239.2022.0645. |
| [21] | 任海波, 余波, 王奎, 等. “双碳”背景下抽水蓄能电站的发展与展望 [J]. 内蒙古电力技术, 2022, 40(3): 25-30. DOI: 10.19929/j.cnki.nmgdljs.2022.0043. REN H B, YU B, WANG K, et al. Development and prospect of pumped storage power station under double-carbon background [J]. Inner Mongolia electric power, 2022, 40(3): 25-30. DOI: 10.19929/j.cnki.nmgdljs.2022.0043. |
| [22] | 万明忠, 杨易凡, 袁照威, 等. 大容量压缩空气储能关键技术 [J]. 南方能源建设, 2023, 10(6): 26-33. DOI: 10.16516/j.gedi.issn2095-8676.2023.06.003. WAN M Z, YANG Y F, YUAN Z W, et al. Key technologies of large-scale compressed air energy storage [J]. Southern energy construction, 2023, 10(6): 26-33. DOI: 10.16516/j.gedi.issn2095-8676.2023.06.003. |
| [23] | 陈吕军. "双碳"目标指引中国工业园区绿色发展 [J]. 中国环境管理, 2021, 13(6): 5-6. DOI: 10.3969/j.issn.1674-6252.2021.6.zgISO14000rz202106001. CHEN L J. The "dual carbon" goal guides the green development of China's industrial parks [J]. Chinese journal of environmental management, 2021, 13(6): 5-6. DOI: 10.3969/j.issn.1674-6252.2021.6.zgISO14000rz202106001. |