The Effect of PH on the Hydrogen and Oxygen Production Using Photovoltaic Power Generator

International Journal of Sustainable Water and Environmental Systems Pub Date : 1900-01-01 DOI:10.5383/swes.05.01.002

S. Abdallah, Essam Yousef, M. Katab, I. Abdullah

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引用次数: 5

Abstract

In this work, an experimental study was conducted to In this work, an experimental study was conducted to investigate the effect of PH on the hydrogen and oxygen production using photovoltaic power generation system. A testing rig was built, where the process of splitting water into hydrogen and oxygen occurs when a DC current generated by a photovoltaic system is passed between two electrodes, immersed in water and separated by a non-electrical conducting material which is resistive Teflon. The results of experimentation indicate that within the range of PH from 3 to 13, the further PH levels gets from PH=7 gives better hydrogen and oxygen production. Alkaline region gave better production. In this work, an experimental study was conducted to investigate the effect of PH on the hydrogen and oxygen production using photovoltaic power generation system. A testing rig was built, where the process of splitting water into hydrogen and oxygen occurs when a DC current generated by a photovoltaic system is passed between two electrodes, immersed in water and separated by a non-electrical conducting material which is resistive Teflon. The results of experimentation indicate that within the range of PH from 3 to 13, the further PH levels gets from PH=7 gives better hydrogen and oxygen production. Alkaline region gave better production. investigate the effect of PH on the hydrogen and oxygen production using photovoltaic powergeneration system. A testing rig was built, where the process of splitting water into hydrogen and oxygen occurs when a DC current generated by a photovoltaic system is passed between two electrodes, immersed in water and separated by a non-electrical conducting material which is resistive Teflon. The results of experimentation indicate that within the range of PH from 3 to 13, the further PH levels gets from PH=7 gives better hydrogen and oxygen production. Alkaline region gave better production. In this work, an experimental study was conducted to investigate the effect of PH on the hydrogen and oxygen production using photovoltaic power generation system. A testing rig was built, where the process of splitting water into hydrogen and oxygen occurs when aDC current generated by a photovoltaic system is passed between two electrodes, immersed in water and separated by a non-electrical conducting material which is resistiveTeflon. The results of experimentation indicate that within the range of PH from 3 to 13, the further PH levels gets from PH=7 gives better hydrogen and oxygen production. Alkaline region gave better production

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PH对光伏发电产氢、产氧的影响

在本工作中，对PH值对光伏发电系统产氢、产氧的影响进行了实验研究。搭建了一个测试平台，当光伏系统产生的直流电通过两个电极时，将水分解成氢气和氧气，浸入水中，并由一种非导电材料(电阻特氟龙)分离。实验结果表明，在PH= 3 ~ 13的范围内，PH=7后的PH值越高，产氢产氧效果越好。碱性地区产量较好。本文通过实验研究了PH值对光伏发电系统产氢、产氧的影响。搭建了一个测试平台，当光伏系统产生的直流电通过两个电极时，将水分解成氢气和氧气，浸入水中，并由一种非导电材料(电阻特氟龙)分离。实验结果表明，在PH= 3 ~ 13的范围内，PH=7后的PH值越高，产氢产氧效果越好。碱性地区产量较好。研究了PH值对光伏发电系统产氢、产氧的影响。搭建了一个测试平台，当光伏系统产生的直流电通过两个电极时，将水分解成氢气和氧气，浸入水中，并由一种非导电材料(电阻特氟龙)分离。实验结果表明，在PH= 3 ~ 13的范围内，PH=7后的PH值越高，产氢产氧效果越好。碱性地区产量较好。本文通过实验研究了PH值对光伏发电系统产氢、产氧的影响。建立了一个测试平台，当光伏系统产生的aDC电流在两个电极之间通过时，将水分解成氢气和氧气，浸入水中并由一种非导电材料(电阻聚四氟乙烯)分离。实验结果表明，在PH= 3 ~ 13的范围内，PH=7后的PH值越高，产氢产氧效果越好。碱性地区产量较好

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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International Journal of Sustainable Water and Environmental Systems

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