Study of the Radical Chain Mechanism of Hydrocarbon Oxidation for In Situ Combustion Process

IF 1.5 Q3 ENGINEERING, CHEMICAL Journal of Combustion Pub Date : 2017-01-01 DOI:10.1155/2017/2526596
A. Ushakova, V. Zatsepin, M. Varfolomeev, D. Emelyanov
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引用次数: 39

Abstract

Despite the abundance of in situ combustion models of oil oxidation, many of the effects are still beyond consideration. For example, until now, initial stages of oxidation were not considered from a position of radical chain process. This is a serious difficulty for the simulation of oil recovery process that involves air injection. To investigate the initial stages of oxidation, the paper considers the sequence of chemical reactions, including intermediate short-living compounds and radicals. We have attempted to correlate the main stages of the reaction with areas of heat release observed in the experiments. The system of differential equations based on the equations of oxidation reactions was solved. Time dependence of peroxides formation and start of heat release is analytically derived for the initial stages. We have considered the inhibition of initial oxidation stages by aromatic oil compounds and have studied the induction time in dependence on temperature. Chain ignition criteria for paraffins and crude oil in presence of core samples were obtained. The calculation results are compared with the stages of oxidation that arise by high-pressure differential scanning calorimetry. According to experimental observations we have determined which reactions are important for the process and which can be omitted or combined into one as insignificant.
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原位燃烧过程中烃类氧化自由基链机理的研究
尽管有大量的油氧化的原位燃烧模型,但许多影响仍然无法考虑。例如,到目前为止,氧化的初始阶段还没有从自由基链过程的角度来考虑。这是模拟注气采油过程的一个严重困难。为了研究氧化的初始阶段,本文考虑了化学反应的顺序,包括中间短寿命化合物和自由基。我们试图把反应的主要阶段与实验中观察到的放热面积联系起来。建立了以氧化反应方程为基础的微分方程组。对初始阶段过氧化物形成和放热开始的时间依赖性进行了解析推导。我们考虑了芳香油化合物对初始氧化阶段的抑制作用,并研究了诱导时间与温度的关系。给出了石蜡和原油在岩心样品存在下的链点火准则。计算结果与高压差示扫描量热法测定的氧化阶段进行了比较。根据实验观察,我们已经确定了哪些反应对这个过程是重要的,哪些反应可以忽略或合并为一个不重要的反应。
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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来源期刊
Journal of Combustion
Journal of Combustion ENGINEERING, CHEMICAL-
CiteScore
2.00
自引率
28.60%
发文量
8
审稿时长
20 weeks
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