Proposed Smart Photovoltaic System with Battery and Hydrogen Production

Abstract

This study introduces an innovative energy management approach within a photovoltaic system incorporating fuel cells and battery storage, designed to operate with minimal components while efficiently meeting load requirements. An energy supervision system orchestrates the control of these diverse energy sources. A fuzzy logic controller (FLC) is implemented to optimize photovoltaic (PV) power output, ensuring maximum efficiency. Additionally, surplus PV power, facilitated by the supervisory system, enables operations such as electrolysis for hydrogen production and battery charging. The study evaluates three distinct scenarios, demonstrating that the excess PV power effectively meets the load demands, underscoring the system’s robustness and efficiency in renewable energy utilization.