A Cooperative Game Theory-based Secondary Frequency Regulation in Distribution Systems

2021 North American Power Symposium (NAPS) Pub Date : 2021-11-14 DOI:10.1109/NAPS52732.2021.9654778

Mukesh Gautam, N. Bhusal, M. Benidris, H. Livani

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引用次数: 4

Abstract

Participation of distribution systems in frequency regulation has become an important factor for grid operation after the integration of distributed energy resources (DERs). While available reserves from a single distribution system may not be sufficient for frequency regulation, aggregated reserves from several distribution systems can provide frequency regulation at grid-scale. This paper proposes a cooperative game theory-based approach for secondary frequency regulation in distribution systems consisting of distributed energy resources (DERs). A two-stage strategy is proposed to effectively and precisely determine a change in active power set points of DERs following a command from system operators. In the first stage, the value or worth of each DER and their coalitions are determined using initial rates of change of frequency (ROCOF) for each DER/coalition. In the second stage, the Shapley value, one of the solution concepts of cooperative game theory, is used to determine changes in active power set points of DERs. The proposed method is implemented on several distribution systems including a modified IEEE 13-node system and modified 33-node distribution system.

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基于合作博弈理论的配电系统二次频率调节

分布式能源整合后，配电系统参与频率调节已成为影响电网运行的重要因素。虽然单个配电系统的可用储备可能不足以进行频率调节，但几个配电系统的总储备可以在电网规模上提供频率调节。提出了一种基于合作博弈论的分布式能源配电网二次频率调节方法。提出了一种两阶段策略，根据系统操作员的指令，有效准确地确定分布式电源的有功功率设定点的变化。在第一阶段，使用每个DER/coalition的初始频率变化率(ROCOF)确定每个DER及其联盟的价值或价值。第二阶段，利用合作博弈论中的求解概念之一Shapley值来确定der的有功功率设定点的变化。在改进的IEEE 13节点配电系统和改进的33节点配电系统上实现了该方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 North American Power Symposium (NAPS)

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