Green Hydrogen from PV-Supplied Sono-Electrolysis: Modelling and Experimental Investigations of the Mechanism and Performance

Nour Hane Merabet; Kaouther Kerboua

doi:10.55549/epstem.1363356

Conference Paper

Year 2023, Volume: 23, 100 - 105, 30.09.2023

Nour Hane Merabet Kaouther Kerboua

https://doi.org/10.55549/epstem.1363356

Abstract

References

Azad, A. K., & Khan, M. M. K. (Eds.). (2021). Bioenergy resources and technologies. Academic Press.
Burton, N. A., Padilla, R. V, Rose, A., & Habibullah, H. (2020). Increasing the efficiency of hydrogen production from solar powered water electrolysis. Renewable and Sustainable Energy Reviews, 135(08), 110255.
Esposito, D. V. (2017). Membraneless electrolyzers for low-cost hydrogen production in a renewable energy future. Joule, 1(4), 651–658.

Green Hydrogen from PV-Supplied Sono-Electrolysis: Modelling and Experimental Investigations of the Mechanism and Performance

Year 2023, Volume: 23, 100 - 105, 30.09.2023

Nour Hane Merabet Kaouther Kerboua

https://doi.org/10.55549/epstem.1363356

Abstract

Water and energy are the two most essential assets for a sustainable global human society. However, the high carbon footprint and global warming effects caused by non-renewable sources have made energy transition a key element to ensure sustainable development. Currently, hydrogen produced from water supplied by renewable energy is considered an ideal and sustainable energy carrier for the future. Herein, we investigate experimentally and theoretically using MatLab modeling the production of hydrogen via PV supplied alkaline electrolysis of water coupled to 40 kHz ultrasonic bath. Nickel plates and nickel foam were used as electrode’s material immerged in 25% of KOH electrolyte while a 12V solar panel was used as a green source of power supply. The experimental and the modeling results related to the ultrasounds effect on hydrogen production efficiency showed a high agreement. The integration of ultrasound showed a reduction in electrode coverage by bubbles of approximately 54.8%, which was equivalent to 9.32% of the reduction in cell voltage according to the experiments.

Keywords

Sonoelectrolysis, Green hydrogen, Solar hydrogen, Ultrasound, Electrode coverage, Resistance.

References

Azad, A. K., & Khan, M. M. K. (Eds.). (2021). Bioenergy resources and technologies. Academic Press.
Burton, N. A., Padilla, R. V, Rose, A., & Habibullah, H. (2020). Increasing the efficiency of hydrogen production from solar powered water electrolysis. Renewable and Sustainable Energy Reviews, 135(08), 110255.
Esposito, D. V. (2017). Membraneless electrolyzers for low-cost hydrogen production in a renewable energy future. Joule, 1(4), 651–658.

There are 3 citations in total.

Details

Primary Language	English
Subjects	Environmental and Sustainable Processes
Journal Section	Articles
Authors	Nour Hane Merabet Kaouther Kerboua
Early Pub Date	September 20, 2023
Publication Date	September 30, 2023
Published in Issue	Year 2023Volume: 23

Cite

APA	Merabet, N. H., & Kerboua, K. (2023). Green Hydrogen from PV-Supplied Sono-Electrolysis: Modelling and Experimental Investigations of the Mechanism and Performance. The Eurasia Proceedings of Science Technology Engineering and Mathematics, 23, 100-105. https://doi.org/10.55549/epstem.1363356