重组配置下异步传输链路互联电力系统动态性能评估

2023 International Conference on Power, Instrumentation, Energy and Control (PIECON) Pub Date : 2023-02-10 DOI:10.1109/PIECON56912.2023.10085759

R. Mishra, Narendra Kumar

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引用次数: 0

摘要

在本研究中，提供了一个重构的环境，用于通过异步传输链路互联的两区电力系统的自动发电控制(AGC)。每个控制区有三个热(再热)发电源，两个配电公司(DISCOs)和一个氧化还原液流电池。利用最优控制理论，设计并实现了考虑各种电力契约的最优AGC调节器。结果表明，该系统的动态性能可以很好地满足AGC的要求，并且与不采用RFB相比，该系统的动态性能得到了提高，因为它可以分担对更多有功功率的直接需求。计算特征值是为了分析无RFB和有RFB时系统的稳定性。对于SIMULINK模型和程序编码，使用MATLAB软件版本R2013a来实现所提系统的多种动态响应。

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Dynamic Performance Assessment of Power System Interconnected via Asynchronous Transmission Link in Reorganized Configuration

In this study, an environment that has been restructured for automatic generation control (AGC) of a two-area power system interconnected via an asynchronous transmission link is offered. Each control area has three thermal (reheat) power generating sources, two power distribution companies (DISCOs), and a redox flow battery. By using optimum control theory, the optimal AGC regulators are designed and implemented in the proposed system, considering various power contracts. The dynamic results of the suggested system have been found to satisfactorily fulfill the AGC requirements, and the system’s dynamic performance is enhanced when the suggested system is employed with RFB as compared to without RFB because it might share the immediate need for more active power. Eigenvalues are computed in order to analyze the stability of the system without or with RFB. For SIMULINK model and program coding, MATLAB software version R2013a is used to achieve diverse dynamic responses of the proposed system.

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