Solar-Hydrogen Desalination for Arid Coastal Regions: A Tunisian Case Study in Sustainable Water and Energy Co-Production

Lakdar Kairouani and Khira Dchich
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Lakdar Kairouani: Higher School of Engineering and Technological Studies (ESIET), Arab University of Sciences (UAS), 34 Av. Cyrus Legrand, Tunis 1002, Tunisia
Khira Dchich: Higher School of Engineering and Technological Studies (ESIET), Arab University of Sciences (UAS), 34 Av. Cyrus Legrand, Tunis 1002, Tunisia

International Journal of Latest Technology in Engineering, Management & Applied Science, 2025, vol. 14, issue 7, 161-168

Abstract: This study presents an integrated renewable energy solution for simultaneous desalination and green hydrogen production, optimized for water-stressed coastal regions with high solar potential. The system combines mechanical vapor compression (MVC) desalination (1.5 m³/h capacity) with photovoltaic power (247 kWp) and electrolytic hydrogen storage (8.1 kg/day), enabling 24/7 operation in Mediterranean climates like Tunisia [1].

Date: 2025
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