Catalytic effects of transition metals on oil shale pyrolysis

N. Toreis, X. Verykios, E. Grossmann
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引用次数: 2

Abstract

The decomposition of kerogen of Green River formation oil shale, impregnated with transition metals, was investigated following nonisothermal thermogravimetric techniques, in the presence of hydrogen at atmospheric pressure. Experimental data were best fit by a first-order kinetic model with respect to kerogen. The effects of ambient atmosphere and heating rate were also investigated. In the absence of metals, inert and reducing atmospheres were found not to affect kinetic parameters. The frequency factor was found to increase with heating rate at a constant activation energy. The presence of metals in the oil shale matrix and hydrogen in the retorting atmosphere did not alter the kinetic order of kerogen decomposition, but it lowered apparent activation energies and increased the rate constants. These results are discussed in terms of dissociative hydrogen adsorption on the metal crystallites and hydrogen spill over to the organic matter, resulting in hydrogenation and/or cracking reactions.
过渡金属对油页岩热解的催化作用
采用非等温热重技术,研究了常压下氢存在下绿河组油页岩中过渡金属浸渍的干酪根分解。干酪根一级动力学模型对实验数据拟合最好。研究了环境气氛和升温速率的影响。在没有金属的情况下,惰性气氛和还原性气氛对动力学参数没有影响。在一定活化能下,频率因子随加热速率的增加而增加。油页岩基质中金属元素的存在和重整气氛中氢元素的存在没有改变油根分解的动力学顺序,但降低了表观活化能,提高了反应速率常数。这些结果讨论了解离氢吸附在金属晶体和氢溢出到有机物质,导致氢化和/或裂化反应。
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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