Seagull Optimization Algorithm–Based Fractional-Order Fuzzy Controller for LFC of Multi-Area Diverse Source System With Realistic Constraints

CH. Naga Sai Kalyan; B. Srikanth Goud; Ch. Rami Reddy; Ramanjaneya Reddy Udumula; Mohit Bajaj; Naveen Kumar Sharma; Elmazeg Elgamli; Mokhtar Shouran; Salah Kamel

doi:10.3389/fenrg.2022.921426

Frontiers in Energy Research (Jul 2022)

Seagull Optimization Algorithm–Based Fractional-Order Fuzzy Controller for LFC of Multi-Area Diverse Source System With Realistic Constraints

CH. Naga Sai Kalyan,
B. Srikanth Goud,
Ch. Rami Reddy,
Ramanjaneya Reddy Udumula,
Mohit Bajaj,
Naveen Kumar Sharma,
Elmazeg Elgamli,
Mokhtar Shouran,
Salah Kamel

Affiliations

CH. Naga Sai Kalyan: Electrical and Electronics Engineering, Vasireddy Venkatadri Institute of Technology, Guntur, India
B. Srikanth Goud: Department of Electrical and Electronics Engineering, Anurag University, Ghatkesar, India
Ch. Rami Reddy: Department of Electrical and Electronics Engineering, Malla Reddy Engineering College, Secunderabad, India
Ramanjaneya Reddy Udumula: Department of Electrical and Electronics Engineering, SRM University, Amaravati, India
Mohit Bajaj: Department of Electrical and Electronic Engineering, National Institute of Technology Delhi, Delhi, India
Naveen Kumar Sharma: Electrical Engineering Department, I. K. G. Punjab Technical University, Jalandhar, India
Elmazeg Elgamli: Wolfson Centre for Magnetics, School of Engineering, Cardiff University, Cardiff, United Kingdom
Mokhtar Shouran: Wolfson Centre for Magnetics, School of Engineering, Cardiff University, Cardiff, United Kingdom
Salah Kamel: Electrical Engineering Department, Faculty of Engineering, Aswan University, Aswan, Egypt

DOI: https://doi.org/10.3389/fenrg.2022.921426
Journal volume & issue: Vol. 10

Abstract

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This study initiates the implementation of fractional-order (FO) fuzzy (F) PID (FOFPID) controller fine-tuned using a seagull optimization algorithm (SOA) for the study of load frequency control (LFC). Initially, the SOA-tuned FOFPID regulator is implemented on the widely utilized model of dual-area reheat-thermal system (DARTS), named test system-1 in this work for a perturbation of 10% step load (10% SLP) on area-1. Dynamical analysis of the DARTS system reveals the viability of the SOA-tuned FOFPID control scheme in regulating frequency deviations effectively compared to other control schemes covered in the literature. Later, the presented regulator is implemented on the multi-area diverse sources (MADS) system possessing realistic constraints in this study, termed test system-2. The sovereignty of the presented FOFPID controller is once again evidenced with controllers of PID/FOPID/FPID fine-tuned with the SOA approach. Moreover, the effect of considering practical realistic nonlinearity constraints such as communication time delays (CTDs) on MADS system performance is visualized and the necessity of its consideration is demonstrated. Furthermore, AC-DC lines are incorporated with the MADS system to enhance the performance under heavy-load disturbances and the robustness of the proposed regulatory mechanism is deliberated.

Published in Frontiers in Energy Research

ISSN: 2296-598X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: General Works
Website: https://www.frontiersin.org/journals/energy-research

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