Review of Multiple Topologies for DC Aggregation and Boosting Systems in Offshore Wind Power

高悦; 陈衡; 王心玉; 潘佩媛; 刘文毅

doi:10.3969/j.issn.1008-0198.2025.05.007

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Review of Multiple Topologies for DC Aggregation and Boosting Systems in Offshore Wind Power

更新时间：2026-01-10

- Review of Multiple Topologies for DC Aggregation and Boosting Systems in Offshore Wind Power
- Vol. 45, Issue 5, Pages: 47-54(2025)
- 作者机构：
  
  华北电力大学,北京,102206
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.1008-0198.2025.05.007
  CLC： TM614
- Published Online：11 November 2025，
  
  Published：11 November 2025
- 稿件说明：
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高悦, 陈衡, 王心玉, 潘佩媛, 刘文毅. 海上风电直流汇集升压系统多种拓扑结构综述[J]. 湖南电力, 2025, 45(5): 47-54.

高悦, 陈衡, 王心玉, et al. Review of Multiple Topologies for DC Aggregation and Boosting Systems in Offshore Wind Power[J]. 2025, 45(5): 47-54.
高悦, 陈衡, 王心玉, 潘佩媛, 刘文毅. 海上风电直流汇集升压系统多种拓扑结构综述[J]. 湖南电力, 2025, 45(5): 47-54. DOI： 10.3969/j.issn.1008-0198.2025.05.007.

高悦, 陈衡, 王心玉, et al. Review of Multiple Topologies for DC Aggregation and Boosting Systems in Offshore Wind Power[J]. 2025, 45(5): 47-54. DOI： 10.3969/j.issn.1008-0198.2025.05.007.

摘要

为提高海上风电的经济性

更充分地利用海上风电资源

提出与海上风电直流输电相关的海上风电高压直流输电及直流汇集技术。结合不同连接方式与不同的系统升压次数

从中优选出契合当下海上风电发展趋势的海上风电直流汇集升压拓扑结构

分析典型海上风电出力场景下直流汇集系统中各拓扑结构的特性

并结合典型案例研究各拓扑结构的建设成本、能量损耗与可靠性

进而得出最适用于大型海上风力发电场的直流汇集方案构型

以提升海上风电直流汇集系统的综合效益。

Abstract

To enhance the economy of offshore wind power and make fuller use of offshore wind power resources

high-voltage direct current transmission and DC aggregation technologies related to offshore wind power DC transmission is proposed. Combining different connection methods and different system boosting times

the topology of offshore wind power DC aggregation and boosting is selected to meet the current development trend of offshore wind power

and the characteristics of each topology in the DC aggregation system under typical offshore wind power scenarios are analyzed. The construction cost

energy loss and reliability of each topology are studied in conjunction with typical case studies. Finally

the most suitable DC aggregation scheme configuration for large-scale offshore wind farms is then derived to improve the comprehensive benefits of the offshore wind power DC aggregation system.

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references

蔡旭,杨仁炘,周剑桥,等. 海上风电直流送出与并网技术综述[J]. 电力系统自动化,2021,45(21):2-22.

吴倩,薄鑫,吴杨勇,等. 远海岸海上风电输电方式技术经济分析[J]. 电工电气,2024(1):1-9,15.

邱志,吴迪,赵亚州,等. 一种关于MMC谐波抑制的新型无源控制方法[J]. 广东电力,2024,37(10):103-111.

LI G,XING Y,LI X X,et al.Research on equivalent modeling of VSC-HVDC grid-connected system for large-scale offshore wind power energy[C]// 2022 37th Youth Academic Annual Conference of Chinese Association of Automation(YAC). Beijing,China. IEEE,2022:1480-1484.

王秀丽,赵勃扬,黄明煌,等. 大规模深远海风电送出方式比较及集成设计关键技术研究[J]. 全球能源互联网,2019,2(2):138-145.

刘生. 海上风电多风场集中送出方式优选方法[J]. 南方能源建设,2025,12(1):100-108.

何建东,邱情芳,冯成. 大规模海上风电集成送出关键技术与发展趋势综述[J]. 风能,2022(12):82-87.

王诗超,刘嘉畅,刘展志,等. 海上风电产业现状及未来发展分析[J]. 南方能源建设,2023,10(4):103-112.

ZHANG Z H,XIANG W,WEN J Y.Impedance modeling and stability analysis of DR-MMC based hybrid HVDC for offshore wind farm integration[J]. IEEE Transactions on Power Delivery,2023,38(6):4397-4409.

刘君怡,樊艳芳,白雪岩,等. 基于FTA-NSMC法的风电场直流汇集系统可靠性评估[J]. 智慧电力,2025,53(1):82-89.

YANG B,LIU B Q,ZHOU H Y,et al.A critical survey of technologies of large offshore wind farm integration:summary,advances,and perspectives[J]. Protection and Control of Modern Power Systems,2022,7(1):1-3.

肖寒冰,马建军,朱淼,等. 面向海上风电直流升压汇集的非对称双向有源桥DC-DC变换器[J]. 中国电机工程学报,2025,45(7):2719-2732.

FOLLO A,SABORÍO-ROMANO O,TEDESCHI E,et al. Challenges in all-DC offshore wind power plants[J]. Energies,2021,14(19):6057.

孙瑞娟,Gayan ABEYNAYAKE,穆清,等. 基于通用生成函数的海上风电集电系统可靠性与经济性评估[J]. 电力系统自动化,2022,46(5):159-173.

杜杰,李子润,李国杰. 海上风电直流汇集DC/DC系统实时仿真方法[J]. 电力系统保护与控制,2023,51(7):170-177.

蔡希鹏,邹常跃,彭发喜,等. 超大规模海上风电海陆一体直流输电技术探讨[J]. 电网技术,2024,48(7):2895-2901.

陶建根,陈怡,黄博远. 海上风电发展现状与趋势分析[J].能源工程,2023,43(4):1-9.

GUAN M Y.A series-connected offshore wind farm based on modular dual-active-bridge(DAB)isolated DC-DC Converter[J]. IEEE Transactions on Energy Conversion,2019,34(3):1422-1431.

LI P,JOVCIC D,HODGE E,et al.Analysis of bidirectional 15MW current source DC/DC converter for series-connected superconducting-based 1 GW/100 kV offshore wind farm[J]. Electric Power Systems Research,2022,202:107618.

郭灵瑜,姚钢,周荔丹. 全直流海上风电场高升压比DC/DC变换技术综述[J]. 电力系统保护与控制,2018,46(12):158-169.

LIU Y X,ZHOU Y B,LIU Q H,et al.Comparative analysis of aggregation topologies for all-DC offshore wind farms[C]//2023 10th International Conference on Power and Energy Systems Engineering(CPESE). Nagoya,Japan. IEEE,2023:147-153.

刘其辉,洪诚程,樊双婕,等. 一种基于二重移相变换的大容量海上直流风机及控制技术[J]. 中国电机工程学报,2023,43(2):507-519.

刘云波,胡书举,李丰林,等. 海上风电直流汇集DC-DC变换器拓扑与控制策略分析[J]. 电测与仪表,2023,60(12):77-81.

黄守道,彭婧,吕铭晟,等. 直流汇集式串-并联型风电场机组协调控制[J]. 电力电子技术,2016,50(6):16-19.

李战龙,王祥君,王海云,等. 基于直流风电机组的风电全直流输电系统综述[J]. 电测与仪表,2022,59(12):14-24.

李岩,冯俊杰,卢毓欣,等. 大容量远海风电柔性直流送出关键技术与展望[J]. 高电压技术,2022,48(9):3384-3393.

孙冠群. 海上风电场全直流汇集经济性研究[J].电气技术,2023,24(5):1-5.

谭振龙,张伶俐,陈希,等. 远海大容量机组海上风电集电系统技术经济研究[J]. 电气应用,2021,40(6):64-71.

施刚,王志冰,曹远志,等. 适用于高压直流传输的海上直流风电场内网拓扑的比较分析[J]. 电网技术,2014,38(11):3059-3064.

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