Guidelines for general adsorption kinetics modeling

B. Obradovic
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引用次数: 14

Abstract

Adsorption processes are widely used in different technological areas and industry sectors, thus continuously attracting attention in the scientific research and publications. Design and scale-up of these processes are essentially based on the knowledge and understanding of the adsorption kinetics and mechanism. Adsorption kinetics is usually modeled by using several well-known models including the pseudo-first and pseudo-second order models, the Elovich equation, and the intra-particle diffusion based models. However, in the scientific literature there are a significant number of cases with the inappropriate use of these models, utilization of erroneous expressions, and incorrect interpretation of the obtained results. This paper is especially focused on applications of the pseudo-second order, intra-particle diffusion and the Weber-Morris models, which are illustrated with typical examples. Finally, general recommendations for selection of the appropriate kinetic model and model assumptions, data regression analysis, and evaluation and presentation of the obtained results are outlined.
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一般吸附动力学建模指南
吸附过程被广泛应用于不同的技术领域和工业部门,因此在科学研究和出版物中不断受到关注。这些工艺的设计和放大基本上是基于对吸附动力学和机理的认识和理解。吸附动力学通常用几种著名的模型来建模,包括伪一阶和伪二阶模型、Elovich方程和基于颗粒内扩散的模型。然而,在科学文献中,有相当数量的案例不恰当地使用这些模型,使用错误的表达,以及对所获得的结果的错误解释。本文重点介绍了伪二阶模型、粒子内扩散模型和Weber-Morris模型的应用,并给出了典型的例子。最后,概述了选择适当的动力学模型和模型假设,数据回归分析以及评估和呈现所获得结果的一般建议。
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