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 Pub Date : 2023-10-16 DOI:10.55549/epstem.1363356

Nour Hane MERABET, Kaouther KERBOUA

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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.

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光电声电解绿色氢:机理和性能的建模和实验研究

水和能源是可持续的全球人类社会最重要的两项资产。然而，不可再生能源造成的高碳足迹和全球变暖效应使能源转型成为确保可持续发展的关键因素。目前，由可再生能源提供的水产生的氢被认为是未来理想的可持续能源载体。在此，我们通过实验和理论研究了通过PV供电的碱性电解水耦合40 kHz超声波浴制氢的MatLab建模。电极材料采用镍板和泡沫镍，浸在25% KOH的电解液中，绿色电源采用12V太阳能电池板。超声对产氢效率影响的实验结果与模型结果吻合较好。超声波的集成显示气泡对电极覆盖率的降低约为54.8%，相当于实验中电池电压降低的9.32%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The Eurasia Proceedings of Science Technology Engineering and Mathematics

CiteScore

0.20

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0.00%

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