非均相催化剂的表面不均匀性和动力学不敏感性

Q4 Chemical Engineering

分子催化 Pub Date : 1994-11-13 DOI:10.1016/0304-5102(94)87029-2

V.T. Popa, E. Segal

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引用次数: 3

摘要

提出了在非均匀催化表面上进行单路稳态反应的新模型。放弃了Temkin模型的一些假设，采用了一般的中值定理，引入了动力学不敏感的概念。该模型严格地解释了一大类反应的存在，这些反应的演变被“经典动力学”(在理想的均匀表面上推导出来)精确地描述了。与结构敏感/不敏感的联系，研究了与频繁调用的表面重构效应的关系。对两步序列的应用导致了经典的Temkin模型(作为一个特殊的例子)，并揭示了它的一些尚未报道的缺点。

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Surface nonuniformity and kinetic insensitivity on heterogeneous catalysts

A new model for single-route, steady-state reactions on nonuniform catalytic surfaces is presented. Giving up some assumptions of the Temkin model and making use of a common mean-value theorem result in the introduction of the concept of kinetic insensitivity. The model rigorously accounts for the existence of a broad class of reactions the evolution of which is accurately described by “classical kinetics” (derived on ideal, uniform surfaces). The connections with structure sensitivity/insensitivity are examined in relation with the frequently invoked effect of surface restructuring. The application to two-step sequences leads to the classical Temkin model (as a particular case) and reveals some of its shortcomings, not yet reported.

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来源期刊

分子催化 Chemical Engineering-Catalysis

CiteScore

1.50

自引率

0.00%

发文量

2959

期刊介绍： Journal of Molecular Catalysis (China) is a bimonthly journal, founded in 1987. It is a bimonthly journal, founded in 1987, sponsored by Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, under the supervision of Chinese Academy of Sciences, and published by Science Publishing House, which is a scholarly journal openly circulated both at home and abroad. The journal mainly reports the latest progress and research results on molecular catalysis. It contains academic papers, research briefs, research reports and progress reviews. The content focuses on coordination catalysis, enzyme catalysis, light-ribbed catalysis, stereochemistry in catalysis, catalytic reaction mechanism and kinetics, the study of catalyst surface states and the application of quantum chemistry in catalysis. We also provide contributions on the activation, deactivation and regeneration of homogeneous catalysts, solidified homogeneous catalysts and solidified enzyme catalysts in industrial catalytic processes, as well as on the optimisation and characterisation of catalysts for new catalytic processes. The main target readers are scientists and postgraduates working in catalysis in research institutes, industrial and mining enterprises, as well as teachers and students of chemistry and chemical engineering departments in colleges and universities. Contributions from related professionals are welcome.