An effective cascade control strategy for frequency regulation of renewable energy based hybrid power system with energy storage system

Kavita Singh, Mamta Dahiya, Ashish Grover, Richa Adlakha, Mohammad Amir
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引用次数: 3

Abstract

Frequency deviations occur when load frequency control(LFC) is incompetent to bridge the gap between supply and demand. Thus, this paper presents the effective (1 + TD)-TID cascade regulator to this significant field. The regulator is efficient to execute, and it interfaces the yield of 1 + TD regulator with all the inputs of TID regulator. Here, the power deviation of tie-line and frequency are employed to the TID regulator, which is referred to as the feedback signals. An imperialist competitive algorithm (ICA) is employed for tuning the controller design variables. The primary aim of this study is to examine the LFC issue and further exploration of 2 area thermal systems coordinated with renewable energy sources (RES) like solar PV, wind, and fuel cell with nonlinearities like governor dead band (DB) unit; reheat based turbine, and the generation rate constraints (GRC). The efficacy the of proposed control strategy are investigated in contrast with those of other common works, which disclose not only its simple structure but also, the ICA enhanced (1 + TD)-TID technique gives the smallest values of the performance index (0.091) compare to TIDF (0.372), PIDF (0.467) and least settling time (24.7 s) in contrast to TID (22.8 s) and PIDF (10s). Hence proposed control strategy shows efficient response with lesser oscillations and fast response. The sturdiness of suggested controller is also corroborated with nonlinearities and parameter variations of ±25% . The examination has been additionally improved by integrating a redox flow battery (RFB) in the proposed framework.
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基于可再生能源与储能系统的混合电力系统频率调节的有效串级控制策略
当负荷频率控制(LFC)无法弥补供需之间的差距时,就会出现频率偏差。因此,本文针对这一重要领域提出了有效的(1 + TD)-TID级联调节器。该稳压器执行效率高,它将1 + TD稳压器的良率与TID稳压器的所有输入连接起来。在这里,将tie线和频率的功率偏差引入到TID调节器中,称为反馈信号。采用帝国竞争算法(ICA)来调整控制器的设计变量。本研究的主要目的是研究LFC问题,并进一步探索与可再生能源(如太阳能光伏,风能)和燃料电池等非线性调节死区(DB)单元协调的2区域热系统;基于再热的汽轮机,以及发电速率约束(GRC)。结果表明,ICA增强(1 + TD)-TID技术的性能指标值(0.091)比TIDF(0.372)、PIDF(0.467)最小,沉降时间(24.7 s)比TID (22.8 s)和PIDF (10s)最短。因此所提出的控制策略具有响应效率高、振荡小、响应速度快的特点。所提出的控制器的稳健性也得到了非线性和参数变化±25%的证实。通过在提议的框架中集成氧化还原液流电池(RFB),进一步改进了检查。
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