镍钼催化剂组分相互作用对甲烷分解制氢活性的影响

IF 0.3 Q4 CHEMISTRY, MULTIDISCIPLINARY Chemical Bulletin of Kazakh National University Pub Date : 2022-09-20 DOI:10.15328/cb1281
N. Makayeva, G. Yergaziyeva, Moldir Anisova, Z. Shaimerden, K. Dossumov
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引用次数: 0

摘要

本工作致力于研究载体γ-Al2O3负载的单金属(Fe/Al2O3)和双金属(Fe-Mo/Al2O3)催化剂的活性。已经发现在甲烷分解反应中双金属催化剂比单金属催化剂更具活性。在500~850°C的温度范围内,研究了氧化钼对Fe/Al2O3催化剂在甲烷分解反应中活性的影响。已经确定,以铁催化剂组合物的5wt.%的量添加氧化钼导致样品在相对较低的温度下甲烷化组合物与氢气反应中的催化活性增加。在750°C的反应温度下,与FeMo/Al2O3催化剂上的Fe/Al2O3相比,甲烷转化率从8%提高到98%,氢气产率从5%提高到57%。根据XRD、TPR-H2和BET方法,与Fe/Al2O3催化剂相比,Fe-Mo/Al2O3催化剂在甲烷分解为氢气方面的活性场增加是由于催化剂活性相的分散性增加,以及容易还原的Fe2(MО4)3相的形成。
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Effect of the interaction of components in a nickel-molybdenum catalyst on its activity in decomposition of methane to hydrogen
This work is devoted to the study of the activity of monometallic (Fe/Al2O3) and bimetallic (Fe-Mo/Al2O3) catalysts supported to carrier γ- Al2O3. It has been discovered that the bimetallic catalyst is more active than the monometallic catalyst in the methane decomposition reaction. The results of the influence of molybdenum oxide on the activity of Fe/Al2O3 catalyst in the methane decomposition reaction in the temperature range 500-850°C have been obtained. It has been determined that the addition of molybdenum oxide in the amount of 5 wt. % of the iron catalyst composition leads to an increase in the catalytic activity of the sample in the reaction of methanedecomposition to hydrogen at relatively low temperatures. Compared to Fe/Al2O3 on the FeMo/Al2O3 catalyst at a reaction temperature of 750°C, methane conversionincreases from 8% to 98%, hydrogen yield from 5% to 57%. The increased field of activity Fe-Mo/Al2O3catalyst in the decomposition of methane to hydrogen compared to Fe/Al2O3 catalysts is due to an increase in the dispersity of the active phases of the catalyst, as well as the formation of an easily reduced Fe2(MоО4)3 phase, according to XRD, TPR-H2, and BET methods.
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审稿时长
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