Cost-Effective Analysis of a Hybrid PV/Fuel Cell/Battery System for Sustainable Seawater Desalination in a Tourist Resort in Ras Al-Hekma City, Egypt

ZIEDAN, Hamdy A.; Yousef, Ali M.; El-Taweel, Toka Ezzat M.

doi:10.21608/svusrc.2025.380381.1283

Cost-Effective Analysis of a Hybrid PV/Fuel Cell/Battery System for Sustainable Seawater Desalination in a Tourist Resort in Ras Al-Hekma City, Egypt

Document Type : Original research articles

Authors

¹ Electrical Engineering Department, Faculty of Engineering, Assiut University, 71518 Assiut, Egypt Electrical Engineering Department, Faculty of Engineering, Pharos University in Alexandria, 21648 Alexandria, Egypt

² Electrical Engineering Department, Faculty of Engineering, Assiut University, 71518 Assiut, Egypt

10.21608/svusrc.2025.380381.1283

Abstract

The increasing global demand for clean water and sustainable energy solutions has driven the exploration of hybrid renewable energy systems for desalination applications. This study investigates the optimal sizing of a stand-alone hybrid energy system comprising photovoltaic (PV) panels, fuel cells (FC), and battery storage (BS) to power a seawater desalination (SD) plant and meet the electrical load of a tourist resort in Ras Al-Hekma City, Egypt. The resort's total electrical demand of 3.5 MVA includes a reverse osmosis (RO) desalination plant, lighting, air conditioning, and a wastewater treatment facility. Three system configurations; PV/BS, PV/FC, and PV/FC/BS; were analyzed to determine the most cost-effective and reliable solution. The performance of each system was evaluated based on energy production, storage requirements, and economic metrics such as the cost of energy (COE) and net present cost (NPC). Results indicate that the PV/FC/BS hybrid system offers a balanced solution with a COE of 0.081 $/kWh, combining the reliability of fuel cells with the sustainability of solar energy and battery storage. This research highlights the potential of hybrid renewable energy systems to address water scarcity and energy challenges in remote coastal regions while contributing to Egypt's renewable energy goals.

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