弱配电网中基于公用事业规模逆变器的分布式能源资源的系统解耦并网控制

IF 3.3 Q3 ENERGY & FUELS
Lina He;Shiwen Yu
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引用次数: 0

摘要

针对分布式能源资源(DER)的现有并网逆变器控制方案主要依赖于有功功率(P)-频率(f)和无功功率(Q)-电压(V)下降机制,这些机制是为高电感输电网量身定制的。然而,在弱配电网中,由于其电阻网络特性,P 和 Q 高度耦合,这些控制方案无法提供独立、准确的 f 和 V 调节。这将进一步恶化动态和稳定性能,可能导致逆变器和负载在扰动期间跳闸。为应对这一挑战,本文提出了一种创新的解耦电网形成控制方案,该方案的设计基于系统性视角,考虑了整个配电网固有的耦合特性。通过改变控制器参数和电网强度,分析了所提控制器的小信号稳定性。利用 MATLAB 和 OPAL-RT 平台,通过与现有的电网形成控制策略进行比较,全面验证了该控制器的有效性。结果表明,所提出的控制器可以在弱配电网中有效地解耦 P 和 Q 调节。它使 DER 能够提供独立、准确和自主的 f 和 V 调节,从而提高电网的稳定性和动态性。所提出的控制策略成本低廉、无需通信,而且电路设计简单、稳健,很容易实现商业化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Systematic Decoupling Grid-Forming Control for Utility-Scale Inverter-Based Distributed Energy Resources in Weak Distribution Grids
Existing grid-forming inverter control schemes for distributed energy resources (DERs) primarily rely on active power (P)-frequency (f) and reactive power (Q)-voltage (V) droop mechanisms that are tailored for highly inductive transmission grids. However, in weak distribution grids where P and Q are highly coupled due to their resistive network characteristics, these control schemes cannot provide independent and accurate f and V regulation. This will further deteriorate the dynamic and stability performance, potentially resulting in inverter and load tripping during disturbances. To address this challenge, this paper proposes an innovative decoupling grid-forming control scheme, which is designed based on a systematic perspective that considers the inherent coupling characteristic of the entire distribution grid. The small-signal stability of the proposed controller is analyzed by varying controller parameters and the grid strength. The effectiveness of this controller is comprehensively verified using both MATLAB and OPAL-RT platforms by comparing it with existing grid-forming control strategies. The results show that the proposed controller can effectively decouple P and Q regulation in weak distribution grids. It enables DERs to provide independent, accurate, and autonomous f and V regulation, thus improving grid stability and dynamics. The proposed control strategy is cost-effective, communication-free, and can be easily commercialized due to its straightforward and robust circuit design.
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来源期刊
CiteScore
7.80
自引率
5.30%
发文量
45
审稿时长
10 weeks
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