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双层分布式一致性控制用于多风电场快速频率支撑
Two-Level Distributed Consensus Control of Multiple Wind Farms for Fast Frequency Support
| 作者 | Kangyi Sun · Hongyu Zhou · Wei Yao · Yongxin Xiong · Yahan Yao · Jinyu Wen |
| 期刊 | IEEE Transactions on Sustainable Energy |
| 出版日期 | 2024年9月 |
| 技术分类 | 风电变流技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 风力发电机组 频率支撑 两级分布式共识控制 功率指令分配 仿真分析 |
语言:
中文摘要
相邻风电场具有显著的频率支撑潜力,其风电机组受尾流效应影响,频率支撑能力各异。为充分挖掘不同运行状态下机组的支撑潜力,本文提出一种双层分布式一致性控制方法实现风电机组协同控制:第一层为风电场内部的主从控制,第二层为风电场间的无主控制。该方法可为系统中不同机组分配差异化的功率指令,提升频率响应效果与系统稳定性。基于MATLAB/Simulink与Opal-RT实时仿真平台,对两区域系统及广水100%可再生能源系统进行分析,结果表明所提方法优于其他频率支撑策略,且能灵活应对通信中断与延迟。
English Abstract
The neighboring wind farms have great frequency support potential. The wind turbine generators (WTGs) in these wind farms are influenced by wake effects and have different frequency support capabilities. In order to fully utilize the WTGs' support capabilities under different operating states, this paper proposes a two-level distributed consensus (TLDC) control to cooperate all the WTGs. Level I is leader-follower control, which is equipped within the wind farms. Level II is leaderless control which is used among the wind farms. This method is able to assign different values of power commands to different WTGs in the system to achieve better frequency support effect and stability. Based on MATLAB/Simulink and Opal-RT real-time simulation platforms, the two-area power system and Guangshui system (100% renewable energy power system) are analyzed, respectively. Simulation results show that the proposed TLDC method has a better effect compared with other frequency support methods. It can also flexibly respond to communication interruptions and delays.
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SunView 深度解读
该双层分布式一致性控制技术对阳光电源的储能与风电产品线具有重要应用价值。可直接应用于ST系列储能变流器的群控系统和PowerTitan大型储能场站的协同调度,优化多机组间的功率分配。该技术的分层控制架构也可借鉴应用于SG系列光伏逆变器的集群控制,提升大型新能源电站的频率支撑能力。特别是在构建高比例可再生能源系统时,该技术可增强阳光电源产品的电网友好性,提升系统稳定性。其抗通信故障的特性也有助于提高产品在复杂工况下的可靠性。