Kinetics, Model Discrimination, and Parameters Estimation of CO2 Methanation on Highly Active Ni/CeO2 Catalyst

甲烷化 催化作用 格式化 化学 化学动力学 动力学 活化能 空间速度 反应速率 热力学 速率决定步骤 一氧化碳 物理化学 化学工程 无机化学 有机化学 工程类 物理 选择性 量子力学
作者
Jon A. Onrubia-Calvo,Adrián Quindimil,Arantxa Davó‐Quiñonero,Alejandro Bermejo-López,Esther Bailón‐García,Beñat Pereda‐Ayo,Dolores Lozano‐Castelló,José A. González‐Marcos,Agustín Bueno‐López,Juan R. González‐Velasco
出处
期刊:Industrial & Engineering Chemistry Research [American Chemical Society]
卷期号:61 (29): 10419-10435 被引量:61
标识
DOI:10.1021/acs.iecr.2c00164
摘要

The reaction kinetics of CO2 methanation over a highly active 8.5% Ni/CeO2 catalyst was determined in a fixed-bed reactor, in the absence of heat- and mass-transfer limitations. Once the catalyst activity was stabilized, more than 120 kinetic experiments (with varying values of reaction temperature, total pressure, space velocity (GHSV), and partial pressure of products and reactants) were performed. From initial reaction rates, an apparent activation energy of 103.9 kJ mol–1 was determined, as well as the effect of reactants (positive) and water partial pressures (negative) on CO2 methanation rate. Three mechanistic models reported in the literature, in which CO2 is adsorbed dissociatively (carbon and formyl routes) or directly (formate route), were explored for modeling the entire reaction kinetics. For that, the corresponding rate equations were developed through the Langmuir–Hinshelwood–Hougen–Watson (LHHW) approach. In agreement with DRIFTS experiments, formate route, in which the hydrogenation of bicarbonate to formate is considered to be the rate-determining step, reflects the kinetic data accurately, operating from differential conversion to thermodynamic equilibrium. In fact, this mechanism results in a mean deviation (D) of 10.38%. Based on previous own mechanistic studies, the participation of two different active sites has been also considered. Formate route on two active sites maintains a high fitting quality of experimental data, providing kinetics parameters with a higher physical significance. Thus, the LHHW mechanism, in which Ni0 sites as well as oxygen vacant near to Ni-CeO2 interface participate in CO2 methanation, is able to predict the kinetics of Ni/CeO2 catalyst accurately for a wide range of operational conditions.
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