Intelligent Integrated Monitoring and Management System for Offshore Wind Farm

Zilong QING; Qingxiang KONG

doi:10.16513/j.2096-2185.DE.2106548

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Distributed Energy ›› 2021, Vol. 6 ›› Issue (5) : 59-63. DOI: 10.16513/j.2096-2185.DE.2106548

Offshore Wind Power

Intelligent Integrated Monitoring and Management System for Offshore Wind Farm

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Abstract

Comprehensive integrated monitoring and management of the main and auxiliary facilities is an effective measure for the efficient operation and inspection of the offshore wind farms. The present situation of offshore wind farm monitoring system in operation and its promotion countermeasures were analyzed. The design idea of intelligent integrated monitoring and management system of offshore wind farm was put forward, which is characterized by full field information digitization, information sharing standardization, system function integration, intelligent main and auxiliary equipment, advanced application interaction, operation state visualization and operation and maintenance management wisdom. The system architecture and technical features were analyzed. We look forward to point out the direction for the wisdom construction of offshore wind farms.

Key words

offshore wind farm / intelligent / integration / monitoring and management system / IEC 61850

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Zilong QING , Qingxiang KONG. Intelligent Integrated Monitoring and Management System for Offshore Wind Farm[J]. Distributed Energy Resources. 2021, 6(5): 59-63 https://doi.org/10.16513/j.2096-2185.DE.2106548

References

List( Publishing order | Descend order by publishing year | Descend order by cited within ) Chart analysis

[1]	黄碧斌，张运洲，王彩霞. 中国“十四五”新能源发展研判及需要关注的问题[J]. 中国电力，2020, 53(1): 1-9. HUANG Bibin, ZHANG Yunzhou, WANG Caixia. New energy development and issues in China during the 14th five-year plan[J]. China Electric Power, 2020, 53(1): 1-9. Cited in this article [1]

[2]	时智勇，王彩霞，李琼慧. “十四五”中国海上风电发展关键问题[J]. 中国电力，2020, 53(7): 8-17. SHI Zhiyong, WANG Caixia, LI Qionghui. “14th Five-Year Plan” China offshore wind power development key issues[J]. China Electric Power, 2020, 53(7): 8-17. Cited in this article [1]

[3]	徐政. 柔性直流输电系统[M]. 北京：机械工业出版社，2017. Cited in this article [1]

[4]

迟永宁，梁伟，张占奎，等. 大规模海上风电输电与并网关键技术研究综述[J]. 中国电机工程学报，2016, 36(14): 3758-3771.

CHI

Yongning

, LIANG

Wei

, ZHANG

Zhankui

, et al. An overview on key technologies regarding power transmission and grid integration of large scale offshore wind power[J]. Proceedings of the CSEE, 2016, 36(14): 3758-3771.

Cited in this article [1]

[5]	任杰. 大型风电机组运行状态评价与分析[D]. 北京：华北电力大学，2014: 1-2. REN Jie. Running status evaluation and analysis for large-scale wind turbines[D]. Beijing: North China Electric Power University, 2014: 1-2. Cited in this article [1]

[6]	国家电网公司. 智能变电站一体化监控系统建设技术规范：Q/GDW 679—2011[S]. 北京：中国电力出版社，2011. State Grid Corporation. Technical specifications for construction of integrated supervision and control system of smart substation: Q/GDW 679—2011[S]. Beijing: China Electric Power Press, 2011. Cited in this article [1]

[7]	国家电网公司. 智能变电站辅助控制系统设计技术规范：Q/GDW 688-2012[S]. 北京：中国电力出版社，2012. State Grid Corporation. Technical specification for design of intelligent substation auxiliary control system: Q/GDW 688-2012[S]. Beijing: China Electric Power Press, 2012. Cited in this article [1]

[8]	闫培丽，袁兆祥. 海上风电场二次系统设计关键技术[J]. 电力建设，2015, 36(4): 129-133. YAN Peili, YUAN Zhaoxiang. Key technology of secondary system design of offshore wind farm[J]. Electricity Construction, 2015, 36(4): 129-133. Cited in this article [1]

[9]	严玉峰. 海上风电场电气二次设计原则和要点[J]. 电气时代，2020(4): 22-26. YAN Yufeng. Electrical secondary design principles and key points of offshore wind farm[J]. The Electrical Age, 2020(4): 22-26. Cited in this article [1]

[10]	冯宝平，曹立海，王璨. 探索风电场信息化、数字化、智能化建设之路[J]. 风力发电，2017(4): 5-8. FENG Baoping, CAO Lihai, WANG Li. Exploration of the informationization, digitation and intelligent construction of wind farm[J]. Wind Power, 2017(4): 5-8. Cited in this article [1]

[11]	夏云峰. 智慧运营2.0模式下，风电场无人值守时代正在到来[J]. 风能，2017(8): 32-34. XIA Yunfeng. Under the smart operation 2.0 mode, the unattended era of wind farms is coming[J]. Wind Energy, 2017(8): 32-34. Cited in this article [1]

[12]	国家电网公司. 海上风电场接入电网技术规定：Q/GDW 11410—2015 [S]. 北京：中国电力出版社，2015. State Grid Corporation of China. Technical rule for connecting offshore wind farm into power grid: Q/GDW 11410—2015[S]. Beijing: China Electric Power Press, 2015. Cited in this article [1]

[13]	中华人民共和国住房和城乡建设部. 海上风力发电场设计规范：GB/T 51308—2019[S]. 北京：中国标准出版社，2019. Ministry of Housing and Urban-Rural Development of the People's Republic of China. Design specification for offshore wind farms: GB/T 51308—2019[S]. Beijing: China Standard Press, 2019. Cited in this article [1]

[14]	傅质馨，袁越. 海上风电机组状态监控技术研究现状与展望[J]. 电力系统自动化，2012, 36(21): 121-129. FU Zhixin, YUAN Yue. Status and prospects on condition monitoring technologies of offshore wind turbine[J]. Automation of Electric Power Systems, 2012, 36(21): 121-129. Cited in this article [1]

[15]	周冰. 海上风电机组智能故障预警系统研究[J]. 南方能源建设，2018, 5(2): 133-137. ZHOU Bing. Offshore wind turbine unit intelligent fault warning system research[J]. Southern Energy Construction, 2081, 5(2): 133-137. Cited in this article [1]

[16]	张峰. 海上风电场升压站无人值守关键技术应用研究[J]. 河南科技，2020, 39(31): 17-20. ZHANG Feng. Application of unattended key technologies of offshore wind farm[J]. Henan Technology, 2020, 39(31): 17-20. Cited in this article [1]

[17]	鲁浩袁，郑帅. 基于多智能终端的海上风电升压站巡检方案设计[J]. 山东电力技术，2020, 47(10): 22-26. LU Haoyuan, ZHENG Shuai. Design of inspection scheme for offshore wind power booster station based on multi-intelligent terminal[J]. Shandong Electric Power Technology, 2020, 47(10): 22-26. Cited in this article [1]

[18]	汤东升. 海上风电大数据分析技术及应用前景初探[J]. 南方能源建设，2018, 5(2): 65-66. TANG Dongsheng. Preliminary study on the big data tech-nology and its application prospect for offshore wind farm[J]. Southern Energy Construction, 2018, 5(2): 65-66. Cited in this article [1]

[19]	张志宏，施永吉，黄建平. 深远海域风电场智慧运维管理系统的探索与研究[J]. 太阳能，2018, 6: 49-53. ZHANG Zhihong, SHI Yongji, HUANG Jianping. Exploration and research of intelligent operation and maintenance management system of profound wind farm[J]. Solar Energy, 2018, 6: 49-53. Cited in this article [1]

[20]	杜杰，刘碧燕. 海上风电场智慧调度平台开发及应用[J]. 风电场，2020(10): 52-55. DU Jie, LIU Biyan. Development and application of offshore farm intelligent dispatching platform[J]. Wind Farm, 2020(10): 52-55. Cited in this article [1]