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Robust Design of Power System Stabilizers Using Improved Harris Hawk Optimizer for Interconnected Power System

Author

Listed:
  • Lakhdar Chaib

    (Energy and Materials Laboratory, University of Tamanghasset, P.O. Box 10034 Sersouf, Tamanghasset 11001, Algeria)

  • Abdelghani Choucha

    (Energy and Materials Laboratory, University of Tamanghasset, P.O. Box 10034 Sersouf, Tamanghasset 11001, Algeria)

  • Salem Arif

    (Energy and Materials Laboratory, University of Tamanghasset, P.O. Box 10034 Sersouf, Tamanghasset 11001, Algeria
    LACoSERE Laboratory, Electrical Engineering Department, Amar Telidji University of Laghouat, P.O. Box 37G, Laghouat 03000, Algeria)

  • Hatim G. Zaini

    (Computer Engineering Department, College of Computer and Information Technology, Taif University, Al Huwaya, Taif 26571, Saudi Arabia)

  • Attia El-Fergany

    (Electrical Power and Machines Department, Faculty of Engineering, Zagazig University, Zagazig 44519, Egypt)

  • Sherif S. M. Ghoneim

    (Department of Electrical Engineering, College of Engineering, Taif University, Taif 21944, Saudi Arabia)

Abstract

In this present work, a new metaheuristic method called a Harris hawk optimizer (HHO) is applied to achieve the optimal design of a power system stabilizer (PSS) in a multimachine power system. Several well-known chaos maps are incorporated into the HHO to form a chaotic HHO (CHHO) with the aim of improving static operators and enhancing global searching. To assess the CHHO performance, exhaustive comparison studies are made between anticipated chaotic maps in handling unconstrained mathematical problems. At this moment, The PSS design problem over a wide permutation of loading conditions is formulated as a non-linear optimization problem. The adopted objective function defines the damping ratio of lightly damped electromechanical modes subject to a set of constraints. The best PSS parameters are generated by the proposed CHHO. The applicability of the proposed CHHO based on PSS is examined and demonstrated on a 10-generator and 39-bus multimachine power system model. The performance assessments of the CHHO results are realized by a comparative study with HHO through extensive simulations along with further eigenvalue analysis to prove its efficacy. The simulation results convincingly demonstrate the high performance of the proposed CHHO-PSS under various operating scenarios.

Suggested Citation

  • Lakhdar Chaib & Abdelghani Choucha & Salem Arif & Hatim G. Zaini & Attia El-Fergany & Sherif S. M. Ghoneim, 2021. "Robust Design of Power System Stabilizers Using Improved Harris Hawk Optimizer for Interconnected Power System," Sustainability, MDPI, vol. 13(21), pages 1-18, October.
    • Handle: RePEc:gam:jsusta:v:13:y:2021:i:21:p:11776-:d:664100
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    References listed on IDEAS

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    Cited by:

    1. Aliyu Sabo & Bashir Yunus Kolapo & Theophilus Ebuka Odoh & Musa Dyari & Noor Izzri Abdul Wahab & Veerapandiyan Veerasamy, 2022. "Solar, Wind and Their Hybridization Integration for Multi-Machine Power System Oscillation Controllers Optimization: A Review," Energies, MDPI, vol. 16(1), pages 1-32, December.
    2. Aliyu Sabo & Theophilus Ebuka Odoh & Hossien Shahinzadeh & Zahra Azimi & Majid Moazzami, 2023. "Implementing Optimization Techniques in PSS Design for Multi-Machine Smart Power Systems: A Comparative Study," Energies, MDPI, vol. 16(5), pages 1-25, March.

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