Kinetic Modeling for the Gas-Phase Hydrogenation of the LOHC γ-Butyrolactone–1,4-Butanediol on a Copper-Zinc Catalyst

Reactions Pub Date : 2022-09-26 DOI:10.3390/reactions3040033
Vincent Gautier, Isabelle Champon, Alban Chappaz, I. Pitault
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引用次数: 0

Abstract

Liquid organic hydrogen carriers (LOHCs) are an interesting alternative for hydrogen storage as the method is based on the reversibility of hydrogenation and dehydrogenation reactions to produce liquid and safe components at room temperature. As hydrogen storage involves a large amount of hydrogen and pure compounds, the design of a three-phase reactor requires the study of gas and liquid-phase kinetics. The gas-phase hydrogenation kinetics of LOHC γ-butyrolactone/1,4-butanediol on a copper-zinc catalyst are investigated here. The experiments were performed with data, taken from the literature, in the temperature and pressure ranges 200–240 °C and 25–35 bar, respectively, for a H2/γ-butyrolactone molar ratio at the reactor inlet of about 90. The best kinetic law takes into account the thermodynamic chemical equilibrium, is based on the associative hydrogen adsorption and is able to simulate temperature and pressure effects. For this model, the confidence intervals are at most 28% for the pre-exponential factors and 4% for the activation energies. Finally, this model will be included in a larger reactor model in order to evaluate the selectivity of the reactions, which may differ depending on whether the reaction takes place in the liquid or gas phase.
铜锌催化剂上LOHC γ-丁内酯- 1,4-丁二醇气相加氢的动力学模拟
液态有机氢载体(lohc)是一种有趣的储氢替代方法,因为该方法基于加氢和脱氢反应的可逆性,可以在室温下产生液体和安全的组分。由于储氢涉及到大量的氢和纯化合物,三相反应器的设计需要研究气相和液相动力学。研究了LOHC γ-丁内酯/1,4-丁二醇在铜锌催化剂上的气相加氢动力学。实验数据取自文献,温度和压力分别为200-240℃和25-35 bar,反应器入口H2/γ-丁内酯摩尔比约为90。最好的动力学定律考虑了热力学化学平衡,以氢的结合吸附为基础,能够模拟温度和压力的影响。对于该模型,指数前因子的置信区间最多为28%,活化能的置信区间最多为4%。最后,这个模型将包括在一个更大的反应器模型中,以评估反应的选择性,这可能取决于反应是发生在液相还是气相。
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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CiteScore
2.70
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