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Energies
Volume 18
Issue 19
10.3390/en18195061
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This is an early access version, the complete PDF, HTML, and XML versions will be available soon.
Article

Revolutionizing Hybrid Microgrids Enhanced Stability and Efficiency with Nonlinear Control Strategies and Optimization

by
Rimsha Ghias
1,
Atif Rehman
2,
Hammad Iqbal Sherazi
3,
Omar Alrumayh
3,
Abdulrahman Alsafrani
3 and
Abdullah Alburidy
3,*
1
School of Electrical Engineering and Computer Sciences (SEECS), National University of Sciences and Technology (NUST), Islamabad 44000, Pakistan
2
School of Interdisciplinary Engineering and Sciences (SINES), National University of Sciences and Technology (NUST), Islamabad 44000, Pakistan
3
Department of Electrical Engineering, College of Engineering, Qassim University, Buraydah 52571, Saudi Arabia
*
Author to whom correspondence should be addressed.
Energies 2025, 18(19), 5061; https://doi.org/10.3390/en18195061
Submission received: 8 August 2025 / Revised: 6 September 2025 / Accepted: 18 September 2025 / Published: 23 September 2025
(This article belongs to the Special Issue AC, DC and Hybrid Microgrids - Trends and Prospects with Distributed Generation)
Versions Notes

Abstract

Microgrid systems play a vital role in managing distributed energy resources like solar, wind, batteries, and supercapacitors. However, maintaining stable AC/DC bus voltages and minimizing grid reliance under dynamic conditions is challenging. Traditional control methods such as Sliding Mode Controllers (SMCs) suffer from issues like chattering and slow convergence, reducing practical effectiveness. This paper proposes a hybrid AC/DC microgrid that operates in both grid-connected and islanded modes while ensuring voltage stability and efficient energy use. A Conditional-Based Super-Twisting Sliding Mode Controller (CBSTSMC) is employed to address the limitations of conventional SMCs. The CBSTSMC enhances system performance by reducing chattering, improving convergence speed, and offering better tracking and disturbance rejection. To further refine controller performance, an Improved Grey Wolf Optimization (IGWO) algorithm is used for gain tuning, resulting in enhanced system robustness and precision. An Energy Management System (EMS) is integrated to intelligently regulate power flow based on renewable generation and storage availability. The proposed system is tested in real time using a Texas Instruments Delfino C2000 microcontroller through a Controller-in-the-Loop (CIL) setup. The simulation and hardware results confirm the system’s ability to maintain stability and reliability under diverse operating scenarios, proving its suitability for future smart grid applications.
Keywords: microgrids; power converters; batteries; inverter; nonlinear; improved grey wolf optimization microgrids; power converters; batteries; inverter; nonlinear; improved grey wolf optimization

Share and Cite

MDPI and ACS Style

Ghias, R.; Rehman, A.; Sherazi, H.I.; Alrumayh, O.; Alsafrani, A.; Alburidy, A. Revolutionizing Hybrid Microgrids Enhanced Stability and Efficiency with Nonlinear Control Strategies and Optimization. Energies 2025, 18, 5061. https://doi.org/10.3390/en18195061

AMA Style

Ghias R, Rehman A, Sherazi HI, Alrumayh O, Alsafrani A, Alburidy A. Revolutionizing Hybrid Microgrids Enhanced Stability and Efficiency with Nonlinear Control Strategies and Optimization. Energies. 2025; 18(19):5061. https://doi.org/10.3390/en18195061

Chicago/Turabian Style

Ghias, Rimsha, Atif Rehman, Hammad Iqbal Sherazi, Omar Alrumayh, Abdulrahman Alsafrani, and Abdullah Alburidy. 2025. "Revolutionizing Hybrid Microgrids Enhanced Stability and Efficiency with Nonlinear Control Strategies and Optimization" Energies 18, no. 19: 5061. https://doi.org/10.3390/en18195061

APA Style

Ghias, R., Rehman, A., Sherazi, H. I., Alrumayh, O., Alsafrani, A., & Alburidy, A. (2025). Revolutionizing Hybrid Microgrids Enhanced Stability and Efficiency with Nonlinear Control Strategies and Optimization. Energies, 18(19), 5061. https://doi.org/10.3390/en18195061

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