Microstructural Changes and Kinetic Analysis of Oxidation Reaction in Coal–Oil Symbiosis

IF 4.8 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Lintao Hu, Hongqing Zhu, Binrui Li, Rui Li, Linhao Xie, Ruoyi Tao, Baolin Qu
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Abstract

During the coal mining process, fractures generated can lead to crude oil infiltrating into coal seams, forming coal–oil symbiosis (COS). The complex three-phase interaction of coal–oil–oxygen makes the mechanism of COS spontaneous combustion filled with uncertainties. This study utilized synchronous thermal analysis to analyze the physico-chemical behavior of raw coal and COS at different heating rates. Additionally, detailed characterization of their surface morphology and functional groups was conducted using scanning electron microscopy (SEM) and in situ FTIR technology. The findings suggest that the coverage of crude oil on the surface of coal inhibits the adsorption of oxygen by the coal, leading to the disappearance of the stage where COS absorbs oxygen and gains weight. Moreover, the continuous decline of –OH groups and aliphatic hydrocarbons in the later stages suggests that crude oil acts as a catalyst for combustion during the latter stages of the reaction. The Kissinger–Akahira–Sunose, Starink, and Flynn–Wall–Ozawa methods showed that the apparent activation energy of COS is 23.3 and 19.7% lower than that of raw coal in thermal decomposition and combustion stages, respectively.

Abstract Image

煤油共生过程中氧化反应的微观结构变化与动力学分析
在煤炭开采过程中,产生的裂缝会导致原油渗入煤层,形成煤油共生(COS)。煤、油、氧三相复杂的相互作用使得煤油共生自燃的机理充满了不确定性。本研究利用同步热分析方法分析了原煤和 COS 在不同加热速率下的物理化学行为。此外,还利用扫描电子显微镜(SEM)和原位傅立叶变换红外技术对它们的表面形态和官能团进行了详细表征。研究结果表明,原油在煤表面的覆盖抑制了煤对氧气的吸附,导致 COS 吸氧增重阶段的消失。此外,在后期阶段,-OH 基团和脂肪族碳氢化合物不断减少,这表明原油在反应的后期阶段起到了燃烧催化剂的作用。Kissinger-Akahira-Sunose 法、Starink 法和 Flynn-Wall-Ozawa 法表明,在热分解和燃烧阶段,COS 的表观活化能分别比原煤低 23.3% 和 19.7%。
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来源期刊
Natural Resources Research
Natural Resources Research Environmental Science-General Environmental Science
CiteScore
11.90
自引率
11.10%
发文量
151
期刊介绍: This journal publishes quantitative studies of natural (mainly but not limited to mineral) resources exploration, evaluation and exploitation, including environmental and risk-related aspects. Typical articles use geoscientific data or analyses to assess, test, or compare resource-related aspects. NRR covers a wide variety of resources including minerals, coal, hydrocarbon, geothermal, water, and vegetation. Case studies are welcome.
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