| [1] | 蔡彦枫, 李晓宇. 面向空中风力发电系统的高空风场观测 [J]. 南方能源建设, 2024, 11(1): 1-9. DOI: 10.16516/j.ceec.2024.1.01. CAI Y F, LI X Y. High-altitude wind field observation of airborne wind energy system [J]. Southern energy construction, 2024, 11(1): 1-9. DOI: 10.16516/j.ceec.2024.1.01. |
| [2] | 邵垒, 毛虹霖, 邢胜, 等. 高空风力发电发展现状及关键技术研究综述 [J]. 新能源进展, 2020, 8(6): 477-485. DOI: 10.3969/j.issn.2095-560X.2020.06.005. SHAO L, MAO H L, XING S, et al. Review on development status and key technology of airborne wind energy system [J]. Advances in new and renewable energy, 2020, 8(6): 477-485. DOI: 10.3969/j.issn.2095-560X.2020.06.005. |
| [3] | 韩爽, 刘杉. 高空风力发电关键技术、现状及发展趋势 [J]. 分布式能源, 2024, 9(1): 1-9. DOI: 10.16513/j.2096-2185.DE.2409101. HAN S, LIU S. Key technologies, current status and development trends of high-altitude wind power generation [J]. Distributed energy, 2024, 9(1): 1-9. DOI: 10.16513/j.2096-2185.DE.2409101. |
| [4] | 闫溟, 陈广强, 陈冰雁, 等. 高空风力发电机组概念设计研究 [J]. 风能, 2017(9): 70-72. DOI: 10.3969/j.issn.1674-9219.2017.09.025. YAN M, CHEN G Q, CHEN B Y, et al. Research on conceptual design of high-altitude wind turbine [J]. Wind energy, 2017(9): 70-72. DOI: 10.3969/j.issn.1674-9219.2017.09.025. |
| [5] | 姜阳, 陆超, 袁志昌, 等. 高空风力发电系统能量捕获及变换技术: 现状与展望 [J/OL]. (2024-08-29) [2024-09-03]. https://link.cnki.net/urlid/11.2107.TM.20240829.1325.012. JIANG Y, LU C, YUAN Z C, et al. Energy capture and conversion technology of high altitude wind power generation systems: current situation and prospect [J/OL]. (2024-08-29) [2024-09-03]. https://link.cnki.net/urlid/11.2107.TM.20240829.1325.012. |
| [6] | 肖利坤. 国内高空风力发电技术应用现状 [J]. 农村电气化, 2023(7): 66-68. DOI: 10.13882/j.cnki.ncdqh.2023.07.017. XIAO L K. Research on application status of high altitude wind power generation technology in China [J]. Rural electrification, 2023(7): 66-68. DOI: 10.13882/j.cnki.ncdqh.2023.07.017. |
| [7] | 王波. 国内首创高空风能项目开工 [J]. 能源研究与信息, 2022, 38(1): 61. WANG B. China's first high-altitude wind energy project started [J]. Energy research and information, 2022, 38(1): 61. |
| [8] | 张建军. 一种高空风能的发电系统: 201920651587.0 [P]. 2020-05-05. ZHANG J J. A high-altitude wind power generation system: 201920651587.0 [P]. 2020-05-05. |
| [9] | 邵垒, 贺佳伟, 曾宪君, 等. 翼型伞衣高空发电系统: 202210127113.2 [P]. 2022-05-06. SHAO L, HE J W, ZENG X J, et al. Aerofoil canopy high-altitude power generation system: 202210127113.2 [P]. 2022-05-06. |
| [10] | 牛力钊, 尹阔, 雷崇晖. 25 MW级高空风电用摩擦卷扬机设计及优化 [J/OL]. (2024-10-28) [2024-11-10]. http://kns.cnki.net/kcms/detail/44.1715.TK.20241025.1730.006.html. NIU L Z, YIN K, LEI C H. Design and optimization of friction winch for 25 MW airborne wind energy systems [J/OL]. (2024-10-28) [2024-11-10]. http://kns.cnki.net/kcms/detail/44.1715.TK.20241025.1730.006.html. |
| [11] | 罗必雄, 章雪萌, 李晓宇, 等. 一种高空风电并网系统的运行优化方法及装置: 202410770606.7 [P]. 2024-10-15. LUO B X, ZHANG X M, LI X Y, et al. Operation optimization method and device for high-altitude wind power grid-connected system: 202410770606.7 [P]. 2024-10-15. |
| [12] | 李苇林, 王二峰, 刘晓东. 海上风电场智慧运维管理系统研究 [J]. 中国设备工程, 2021(23): 36-37. DOI: 10.3969/j.issn.1671-0711.2021.23.021. LI W L, WANG E F, LIU X D. Research on intelligent operation and maintenance management system of offshore wind farm [J]. China plant engineering, 2021(23): 36-37. DOI: 10.3969/j.issn.1671-0711.2021.23.021. |
| [13] | 杨源, 汪少勇, 谭江平, 等. 海上风电场智慧运维管理系统 [J]. 南方能源建设, 2021, 8(1): 74-79. DOI: 10.16516/j.gedi.issn2095-8676.2021.01.011. YANG Y, WANG S Y, TAN J P, et al. The intelligent operation and maintenance management system for offshore wind farms [J]. Southern energy construction, 2021, 8(1): 74-79. DOI: 10.16516/j.gedi.issn2095-8676.2021.01.011. |
| [14] | 学鸿羽. 浅谈风电场运维管理 [C]// 北京大学经济管理学院. 决策论坛——政用产学研一体化协同发展学术研讨会, 北京, 2015-12-18. 北京: 《决策与信息》杂志社, 2016: 178, 180. XUE H Y. Talk about wind farm operation and maintenance management [C]// School of Economics, Peking University. Decision forum: academic seminar on the coordinated development of government, application, industry, research and integration, peking, December 18, 2015. Beijing: Decision and information magazine, 2016: 178, 180. |
| [15] | 张艳锋, 田震, 杨海涛, 等. 风电场智慧运维管理浅谈 [J]. 中国设备工程, 2019 (15): 35-37. DOI: 10.3969/j.issn.1671-0711.2019.15.011. ZHANG Y F, TIAN Z, YANG H T, et al. Talk about intelligent operation and maintenance management of wind farm [J]. China plant engineering, 2019 (15): 35-37. DOI: 10.3969/j.issn.1671-0711.2019.15.011. |
| [16] | 阳熹, 杨源. 智慧型海上风电场一体化监控系统方案设计 [J]. 南方能源建设, 2019, 6(1): 42-48. DOI: 10.16516/j.gedi.issn2095-8676.2019.01.008. YANG X, YANG Y. Design of smart offshore wind farm integration monitoring system [J]. Southern energy construction, 2019, 6(1): 42-48. DOI: 10.16516/j.gedi.issn2095-8676.2019.01.008. |
| [17] | 张建军. 一种中高空风能发电系统的控制方法: 201711299009.7 [P]. 2018-05-15. ZHANG J J. Control method of mid-high altitude wind power generation system: 201711299009.7 [P]. 2018-05-15. |
| [18] | 李金伟, 高鹏, 王文帅. 光伏电站智慧化运维设计 [J]. 红水河, 2024, 43(4): 59-64. DOI: 10.3969/j.issn.1001-408X.2024.04.013. LI J W, GAO P, WANG W S. Intelligent operation and maintenance design for photovoltaic power stations [J]. Hongshui river, 2024, 43(4): 59-64. DOI: 10.3969/j.issn.1001-408X.2024.04.013. |
| [19] | 廖永行, 童惠祺. 高空无人飞行器运维管理系统的设计与实现 [J]. 电子技术与软件工程, 2023 (3): 1-4. LIAO Y X, TONG H Q. Design and implementation of high altitude unmanned aerial vehicle operation and maintenance management system [J]. Electronic technology & software engineering, 2023 (3): 1-4. |
| [20] | 李晓宇, 张炳成, 任宗栋, 等. 高空风力发电系统安全风险评估体系 [J]. 中国勘察设计, 2023(增刊1): 26-29. LI X Y, ZHANG B C, REN Z D, et al. High altitude wind power generation system safety risk assessment system [J]. China engineering consulting, 2023(Suppl.1): 26-29. |