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在催化甲烷部分氧化的平均场微观动力学建模中,基于反应焓实施布洛尔斯-马塞尔近似以缩放活化能。

Implementing the Blowers-Masel Approximation to Scale Activation Energy Based on Reaction Enthalpy in Mean-Field Microkinetic Modeling for Catalytic Methane Partial Oxidation.

作者信息

Xu Chao, Mazeau Emily J, West Richard H

机构信息

Department of Chemical Engineering, Northeastern University, Boston, Massachusetts 02115, United States.

出版信息

ACS Catal. 2024 May 9;14(10):8013-8029. doi: 10.1021/acscatal.3c05436. eCollection 2024 May 17.

DOI:10.1021/acscatal.3c05436
PMID:38779181
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11106751/
Abstract

Mean-field microkinetic modeling is a powerful tool for catalyst design and the simulation of catalytic processes. The reaction enthalpies in a microkinetic model often need to be adjusted when changing species' binding energies to model different catalysts, when performing thermodynamic sensitivity analyses, and when fitting experimental data. When altering reaction enthalpies, the activation energies should also be reasonably altered to ensure realistic reaction rates. The Blowers-Masel approximation (BMA) relates the reaction barrier to the reaction enthalpy. Unlike the Brønsted-Evans-Polani relationship, the BMA requires less data because only one parameter, the intrinsic activation energy, needs to be determined. We validate this application of BMA relations to model surface reactions by comparing against density functional theory data taken from the literature. By incorporating the BMA rate description into the open-source Cantera software, we enable a new workflow, demonstrated herein, allowing rapid screening of catalysts using linear scaling relationships and BMA kinetics within the process simulation software. For demonstration purposes, a catalyst screening for catalytic methane partial oxidation on 81 hypothetical metals is conducted. We compared the results with and without BMA-corrected rates. The heat maps of various descriptors (e.g., CH conversion, syngas yield) show that using BMA rates instead of Arrhenius rates (with constant activation energies) changes which metals are most active. Heat maps of sensitivity analyses can help identify which reactions or species are the most influential in shaping the descriptor map patterns. Our findings indicate that while using BMA-adjusted rates did not markedly affect the most sensitive reactions, it did change the most influential species.

摘要

平均场微观动力学建模是催化剂设计和催化过程模拟的有力工具。在微观动力学模型中,当改变物种的结合能以模拟不同催化剂时、进行热力学敏感性分析时以及拟合实验数据时,通常需要调整反应焓。改变反应焓时,活化能也应合理改变以确保反应速率符合实际情况。布洛尔斯 - 马塞尔近似(BMA)将反应势垒与反应焓联系起来。与布朗斯特 - 埃文斯 - 波拉尼关系不同,BMA所需数据较少,因为只需要确定一个参数,即本征活化能。我们通过与文献中的密度泛函理论数据进行比较,验证了BMA关系在模拟表面反应中的应用。通过将BMA速率描述纳入开源的Cantera软件,我们实现了一种新的工作流程,本文对此进行了展示,该流程允许在过程模拟软件中使用线性标度关系和BMA动力学快速筛选催化剂。为了演示目的,我们对81种假设金属上的催化甲烷部分氧化进行了催化剂筛选。我们比较了使用和不使用BMA校正速率的结果。各种描述符(例如CH转化率、合成气产率)的热图表明,使用BMA速率而非具有恒定活化能的阿累尼乌斯速率会改变最具活性的金属。敏感性分析的热图有助于确定哪些反应或物种对描述符图谱模式的形成影响最大。我们的研究结果表明,虽然使用BMA调整后的速率对最敏感的反应没有明显影响,但确实改变了最具影响力的物种。

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