Optimizing Hydrogen Generation: Evaluating Solar-Powered Hydroxy Gas Electrolyzer Performance

Authors

• Sahar M. Abd Elazim, Computer Sciences Department, College of Engineering and Computer Sciences, Jazan University, Jazan 45142, Saudi ArabiaFollow
• Ehab. S. Ali, Department of Electronic and Electrical Engineering, College of Engineering and Computer Sciences, Jazan University, Jazan 45142, Saudi Arabia

Abstract

Hydrogen is being explored as a potential alternative energy source, with water electrolysis emerging as one of the key methods under consideration. This process involves applying an electric current to water to generate hydrogen gas. A recent study examines a membrane-free steel electrolyzer that uses potassium hydroxide as the electrolyte and is powered by solar panels. The experiments revealed that each electrolyzer plate operated at 2–3 volts, requiring careful coordination between the number of plates and the output voltage of the solar panels. Hydrogen production ranged from 1,919 to 6,919 L/m2 of solar panel surface, highlighting the importance of optimizing both panel and plate sizes to maximize efficiency and performance.

Recommended Citation

Elazim, Sahar M. Abd and Ali, Ehab. S. (2026), Optimizing Hydrogen Generation: Evaluating Solar-Powered Hydroxy Gas Electrolyzer Performance, Yanbu Journal of Engineering and Science: Vol. 23: Iss. 1, 109-118.
DOI: https://doi.org/10.53370/3122-3303.1213
Available at: https://yjes.researchcommons.org/yjes/vol23/iss1/7