Enhanced Adaptive Dynamic Surface Sliding Mode Control for Optimal Performance of Grid-Connected Photovoltaic Systems

Hashim Alnami, Sultan H. Hakmi, Saad A. Mohamed Abdelwahab (), Walid S. E. Abdellatif, Hossam Youssef Hegazy, Wael I. Mohamed and Moayed Mohamed
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Hashim Alnami: Department of Electrical and Electronic Engineering, College of Engineering and Computer Science, Jazan University, P.O. Box 114, Jazan 45142, Saudi Arabia
Sultan H. Hakmi: Department of Electrical and Electronic Engineering, College of Engineering and Computer Science, Jazan University, P.O. Box 114, Jazan 45142, Saudi Arabia
Saad A. Mohamed Abdelwahab: Electrical Department, Faculty of Technology and Education, Suez University, Suez 43221, Egypt
Walid S. E. Abdellatif: Electrical Department, Faculty of Technology and Education, Suez University, Suez 43221, Egypt
Hossam Youssef Hegazy: Electrical Department, Faculty of Technology and Education, Helwan University, Helwan 11795, Egypt
Wael I. Mohamed: Electrical Department, Faculty of Technology and Education, Helwan University, Helwan 11795, Egypt
Moayed Mohamed: Electrical Department, Faculty of Technology and Education, Sohag University, Sohag 82524, Egypt

Sustainability, 2024, vol. 16, issue 13, 1-25

Abstract: This study presents an enhanced, adaptive, and dynamic surface sliding mode control (SMC), a cutting-edge method for improving grid-connected photovoltaic (PV) system performance. The suggested control approach uses dynamic SMC and adaptive approaches to enhance the robustness and efficiency of a system. Proportional–integral (PI) and SMC, two control systems for maximum power point tracking (MPPT) in PV systems, are compared in this paper. This study finds that the SMC system is a more effective and efficient MPPT approach for PV systems compared to the conventional PI control system. The SMC system’s unique feature is the capacity to stabilize grid voltage and attain a modulation index of less than one. An important component of power electronic system control is the index, which acts as a parameter representing the relationship between the output signal’s amplitude and the reference signal’s amplitude. The SMC method demonstrates improved robustness, efficiency, and stability, especially in dynamic operating settings with load and solar radiation changes. Compared to the PI control, the SMC exhibits a noteworthy 75% reduction in voltage fluctuations and an improvement in the power output of 5% to 10%. Regarding output power optimization, voltage stability, and accurate current tracking, the SMC system performs better than the PI control system. Furthermore, the SMC technique maintains a modulation index below one and guarantees grid voltage stability, both of which are essential for the efficiency and stability of power electrical systems.

Keywords: PV system; MPPT; PI control; SMC (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2024
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