Determination of Kinetic Parameters of Fischer–Tropsch Synthesis in the Presence of a Granular Cobalt Catalyst

Reactions Pub Date : 2023-01-11 DOI:10.3390/reactions4010004
L. Sineva, K. Gryaznov, Victor De, Andrei Gorshkov, V. Mordkovich
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引用次数: 0

Abstract

Some kinetic parameters of Fischer–Tropsch synthesis (FTS) were determined in the presence of a granular cobalt/zeolite catalyst. Usually, kinetic studies of granular catalysts are considered to be complicated by external and internal diffusion. We managed to obtain a catalyst with a special structure of the active surface, where sites active in FTS are isolated from each other due to the environment of inactive spinel CoAl2O4 and inter-site transport is provided by an extensive intragranular graphitic network serving simultaneously as a heat-conductive medium. As a result, FTS proceeded in the kinetic region. It was found that the reaction kinetics obey the Arrhenius law; whereas, the activation energy is different in different temperature ranges, i.e., 118.2 kJ/mol in the range of 180–210 °C, and 173.6 kJ/mol in the range of 232–243 °C. This behavior is determined by the presence of zeolite, which becomes active in the secondary transformations of FTS products at temperatures beyond 210 °C.
颗粒钴催化剂存在下费托合成动力学参数的测定
在颗粒状钴/沸石催化剂的存在下,测定了费托合成(FTS)的动力学参数。通常,颗粒催化剂的动力学研究被认为是复杂的外部和内部扩散。我们设法获得了一种具有特殊活性表面结构的催化剂,由于无活性尖晶石CoAl2O4的环境,FTS中的活性位点彼此隔离,并且通过广泛的颗粒内石墨网络同时作为导热介质提供位点间传输。结果,FTS在动力学区进行。结果表明,反应动力学服从阿伦尼乌斯定律;不同温度范围内的活化能不同,180 ~ 210℃活化能为118.2 kJ/mol, 232 ~ 243℃活化能为173.6 kJ/mol。这种行为是由沸石的存在决定的,沸石在温度超过210℃时,在FTS产物的二次转化中变得活跃。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
2.70
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