Optimizing hydrogen production from the Landfill Leachate by electro-coagulation technique

World Academy of Science, Engineering and Technology, International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering Pub Date : 2020-10-06 DOI:10.37865/jafe.2020.0020

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引用次数: 2

Abstract

The loss and impact of non-renewable fossil energy on global warming concerns are prompting to intensive research to find viable, less emissions-oriented alternative energies. The present work aims to study the potential of hydrogen gas production (for renewable energy) by electrocoagulation process from landfill leachate. The Design-Expert software for response surface methodology (RSM) was used to investigate the process variables in the hydrogen production system. The effects of three independent variables; namely pH (4-8) and voltage (3-9 V), using different types of electrodes (Al, Fe, and Ni) were studied. At the optimal condition of voltage 9V and initial pH 6 at 20 minutes, the Al electrode recorded an upturn maximum H2 yield of 697 ppm, while 554 and 551 ppm were obtained with Ni and Fe electrode, respectively. Moreover, the coefficient of determination (R2) showed a good relationship between actual and expected results.

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电絮凝法优化垃圾渗滤液制氢

不可再生化石能源的损失和对全球变暖的影响促使人们进行深入研究，寻找可行的、低排放的替代能源。本研究旨在研究垃圾渗滤液电凝法制备氢气(可再生能源)的潜力。利用Design-Expert响应面法(RSM)软件对制氢系统的过程变量进行了研究。三个自变量的影响;即pH(4-8)和电压(3-9 V)，使用不同类型的电极(Al, Fe和Ni)进行了研究。在电压为9V、初始pH为6、反应时间为20分钟的最佳条件下，Al电极的H2产率为697 ppm，而Ni和Fe电极的H2产率分别为554和551 ppm。而且，决定系数(R2)在实际结果和预期结果之间表现出良好的关系。

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World Academy of Science, Engineering and Technology, International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering

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