废铝箔AA1235厚度变化下铝-水反应制氢研究

Fariz Risqi Maulana, N. Fadhilah, Ruri Agung Wahyuono, D. Risanti
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引用次数: 1

摘要

铝水反应是一种极具发展前景的清洁经济制氢方法。研究了废铝箔AA1235厚度对铝-水反应过程的影响。所用铝的厚度分别为6.5 m、11.5 m和19.5 m。铝箔在每个厚度变化中按20毫米× 30毫米的尺寸切割。在此过程中加入0.4 M NaOH和0.01 M NaAlO2作为促进剂。还考虑了铝的初始成分和铝中的位错。用质量缩减模型和缩核模型对实验结果进行了评价。还考虑了铝的初始成分和铝中的位错。用质量缩减模型和缩芯模型对实验结果进行了评价。研究结果表明,较薄厚度的铝可以用一维板缩芯模型进行近似。厚度较厚的铝可以用质量减少模型来处理。同时发现,厚度越小,位错越大,NaAlO2的效果越好,产氢率越高。
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Hydrogen Production from Waste Aluminum Foil AA1235 Using the Aluminum-Water Reaction Method with Thickness Variations
Aluminium-water reaction is one of the most promising ways to produce clean and economical hydrogen. In this study, the effect of the waste Aluminium foil AA1235 thickness on Aluminium-water reaction process was investigated. The thickness of aluminum used are 6.5 m, 11.5 m and 19.5 m. Aluminum foil was cut by size 20 mm x 30 mm in each thickness variation. The 0.4 M NaOH and 0.01 M NaAlO2 was added as promoter on the process. The initial composition of the aluminum and the dislocations in the aluminum are also considered. The experimental results was evaluated by the mass reduction and shrinking core models. The initial composition of the aluminum and the dislocations in the aluminum are also considered. The experimental results were evaluated by the mass reduction and shrinking core models. The results obtained that aluminum with thinner thickness can be approximated by the 1-dimensional slab shrinking core model. Aluminum with a thicker thickness can be approached with a mass reduction model. It is also found out that smaller thickness has larger dislocation and better effects of NaAlO2 resulting higher yield of hydrogen production.
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