Optimization of Mg Scraps Hydrolysis for Hydrogen Generation Using HCl: Experimental and Simulation

R. Akbarzadeh, Qusai Ibrahim, J. Adeniran, P. Oviroh, T. Jen
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Abstract

Worldwide concerns on environmental pollution and the need for clean energy supply have attracted researchers’ interest for power generation using technology which not only is a clean technology but also utilizes the Mg scrap waste, a part of solid waste from electronic and automobile industries. The Mg scraps have been used for the hydrogen generation via hydrolysis. In an attempt we conducted the experimental study and optimization of hydrolysis of Mg scraps waste in the presence of HCl to generate hydrogen. This work optimizes the process of using Mg scraps to produce H2, Mg(OH)2 and MgCl2. The effect of different concentration of HCl on hydrolysis was studied to find the optimum concentration for the hydrogen generation. The most influencing parameters such as acid concentration of solution was selected and studied. The kinetic behaviour was analysed to determine the effect of different HCl concentration on hydrogen generation pattern. Numerical modeling was performed considering the chemical reaction using ReaxFF. The effect of the selected parameters on the system and the hydrogen concentration were investigated to predict the performance of the hydrolysis of Mg scraps in the designed reactor. This study proposes an eco-efficient method as it utilizes the Mg waste to produce hydrogen which is an energy carrier.
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盐酸水解镁渣制氢工艺优化:实验与模拟
世界范围内对环境污染的关注和对清洁能源供应的需求引起了研究人员对利用技术发电的兴趣,这种技术不仅是一种清洁技术,而且还利用了电子和汽车工业固体废物中的镁废料。镁废料已被用于水解制氢。在此基础上,我们对镁废渣在HCl存在下水解制氢的工艺进行了实验研究和优化。本工作优化了利用镁废料生产H2、Mg(OH)2和MgCl2的工艺。研究了不同浓度的HCl对水解的影响,找到了产氢的最佳浓度。选择并研究了溶液酸浓度等对其影响最大的参数。通过动力学行为分析,确定不同HCl浓度对产氢模式的影响。采用ReaxFF软件对化学反应进行了数值模拟。研究了所选参数对系统和氢气浓度的影响,预测了设计反应器中镁渣的水解性能。本研究提出了一种生态高效的方法,因为它利用镁废物产生氢,氢是一种能量载体。
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