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Competition over resources optimized fuzzy TIDF controller for frequency stabilization of hybrid micro‐grid system
International Transactions on Electrical Energy Systems ( IF 1.9 ) Pub Date : 2020-07-17 , DOI: 10.1002/2050-7038.12513
Sunita Patel 1 , Banaja Mohanty 1 , Hany M. Hasanien 2
Affiliation  

This paper presents a comprehensive analytical study of conventional proportional‐integral‐derivative (PID) controller and fuzzy logic controller in a hybrid micro‐grid system (HMGS) for frequency stabilization. Conventional PID and fuzzy logic controllers are tuned by the competition over resources (COR) algorithm. The performance of proposed COR based fuzzy tilt‐integral‐derivative with filter (FTIDF) method is demonstrated on an interconnected HMGS. HMGS completes with variety of energy storage systems and different renewable generation sources. The system analysis is performed under number of scenarios. The scenarios include load fluctuations, variations in wind speed, and sun irradiance. The supremacy of FTIDF controller is established by comparing the results with CRO tuned conventional PID with filter (PIDF), fuzzy PIDF and fuzzy TIDF controllers. The effectiveness of the proposed system is investigated using simulation studies, which are performed using MATLAB/SIMULINK software.

中文翻译:

为混合微电网系统的频率稳定而进行的资源优化模糊TIDF控制器竞争

本文对混合微电网系统(HMGS)中用于频率稳定的常规比例-积分-微分(PID)控制器和模糊逻辑控制器进行了全面的分析研究。传统的PID和模糊逻辑控制器通过资源竞争(COR)算法进行调整。在互连的HMGS上论证了基于COR的基于模糊倾斜积分微分滤波的滤波器(FTIDF)方法的性能。HMGS拥有各种储能系统和不同的可再生能源。系统分析是在多种情况下执行的。这些方案包括负载波动,风速变化和太阳辐照度。通过将结果与CRO调整后的常规PID带滤波器(PIDF)进行比较,可以建立FTIDF控制器的最高控制权,模糊PIDF和模糊TIDF控制器。通过使用MATLAB / SIMULINK软件进行的仿真研究来研究所提出系统的有效性。
更新日期:2020-09-21
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