Usefulness of insights into the kinetic compensation effects in the kinetic analysis of the coal gasification process

Manoj Kumar Jena, Vineet Kumar, Hari Vuthaluru
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Abstract

In this paper, an attempt has been made to understand the kinetic compensation effects and their usefulness in the kinetic analysis of a lab‐based gasification study. The gasification experiment was carried out in two different gasifying environments, that is, 0.4%O₂ + 8%H₂O‐Ar and 8%H₂O‐Ar, for two different particle sizes of Loy Yang brown coal. Analysis of kinetic values with the change in particle size and gasifying environment was investigated. This provides information on the path of product gas formation and how the overall controlling factor affects the path of char gasification, including the rate‐limiting step. Furthermore, the results indicate that having multiple sets of kinetic parameters caused by the inclusion of the change in char properties into kinetics during solid–gas heterogeneous reactions opens up the scope for wider applications in chemical reaction engineering. This includes the design of a reactor with a proper kinetic model, optimization of feedstock, and process parameters with the identification of pathways for product gas formation, which ultimately plays a key role in scaling up technology from bench‐scale to plant‐scale. In contrast, the study of kinetics with having a single set of kinetic data based on the initial change in char properties limits its applications.
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洞察煤气化过程动力学分析中的动力学补偿效应的作用
本文试图了解动力学补偿效应及其在实验室气化研究动力学分析中的作用。气化实验在两种不同的气化环境下进行,即 0.4%O₂ + 8%H₂O-Ar 和 8%H₂O-Ar 两种不同粒度的洛阳褐煤。研究分析了随粒度和气化环境变化而变化的动力学值。这提供了产品气体形成路径的信息,以及整体控制因素如何影响炭气化路径,包括限速步骤。此外,研究结果表明,在固-气异质反应过程中,将木炭性质的变化纳入动力学,可以获得多组动力学参数,这为化学反应工程提供了更广阔的应用空间。这包括利用适当的动力学模型设计反应器、优化原料和工艺参数,并确定生成气体的途径,最终在将技术从台式规模扩大到工厂规模方面发挥关键作用。与此相反,根据炭特性的初始变化获得单组动力学数据的动力学研究限制了其应用。
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