Understanding the hydrocarbon‒generation potential on jurassic coal-measure source rocks in the Junggar Basin: From the perspective of hydrogen-rich molecular structure
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引用次数: 0
Abstract
The Jurassic coal-measure source rocks in the Junggar Basin have drawn considerable attention in recent years. In our hydrocarbon thermal simulation experiments of these rocks, we found that the dark mudstone evaluated as good source rock, had a much lower hydrocarbon generation capacity than the coal and carbonaceous mudstone, evaluated as poor source rock. Based on this background, we performed Fourier transform infrared spectroscopy (FTIR) and combined the results of semi‒open thermal simulation experiments to explore the association between the molecular structure and hydrocarbon production capacity, with the aim of obtaining a new understanding of hydrocarbon potential of Jurassic coal‒measure source rocks from the perspective of molecular structure. The results indicate that coals exhibit lower condensation of aromatic structures and higher relative abundance of aliphatic structures with a higher degree of branched chaining than mudstones and carbonaceous mudstones. Apparent aromaticity (fa), aromatic abundance parameter I, and degree of condensation (DOC) are negatively correlated with organic matter abundance. The aliphatic structural parameter H demonstrates a substantial positive correlation with organic matter abundance. Furthermore, aliphatic relative abundance factor A is associated with the type of organic matter; the better is the type of the organic matter, the larger is the A value. The combination of the molecular structures with the thermal simulation results shows that the aliphatic hydrogen enrichment of selected carbonaceous mudstone is similar to that of coal. However, the relative abundance of the aliphatic group of it is high, and the DOC of the aromatic structure is low, making the hydrocarbon generation base stronger and easier to crack. Thus, the hydrocarbon generation capacity of carbonaceous mudstone is slightly higher than that of coal. Mudstone has low H and I values, and the DOC is high, indicating that its hydrocarbon base is low, so it has low hydrocarbon generation capacity. Therefore, the molecular structure is closely associated with the hydrocarbon potential of coal‒measure source rocks. When evaluating the qualities of coal-measure source rocks, the influence of molecular structure on these rocks should be considered.
准噶尔盆地的侏罗纪煤质源岩近年来备受关注。在对这些岩石进行的碳氢化合物热模拟实验中,我们发现,被评价为好源岩的暗色泥岩的碳氢化合物生成能力远远低于被评价为差源岩的煤质泥岩和碳质泥岩。在此背景下,我们进行了傅立叶变换红外光谱分析,并结合半开放式热模拟实验的结果,探讨了分子结构与生烃能力之间的关联,旨在从分子结构的角度对侏罗纪测煤源岩的生烃潜力有一个新的认识。结果表明,与泥岩和碳质泥岩相比,煤炭的芳香族结构缩合度较低,而支链程度较高的脂肪族结构相对丰度较高。表观芳香度(fa)、芳香丰度参数 I 和缩合度(DOC)与有机质丰度呈负相关。脂肪族结构参数 H 与有机质丰度呈显著正相关。此外,脂肪族相对丰度因子 A 与有机物类型有关;有机物类型越好,A 值越大。分子结构与热模拟结果的结合表明,所选碳质泥岩的脂肪族氢富集与煤相似。但其脂肪族的相对丰度高,芳香族结构的 DOC 低,生烃基础较强,容易裂解。因此,碳质泥岩的生烃能力略高于煤。泥岩的 H 值和 I 值较低,DOC 较高,表明其烃基较低,因此烃生成能力较低。因此,分子结构与煤质源岩的碳氢潜力密切相关。在评价煤质源岩的质量时,应考虑分子结构对这些岩石的影响。
期刊介绍:
Petroleum Science is the only English journal in China on petroleum science and technology that is intended for professionals engaged in petroleum science research and technical applications all over the world, as well as the managerial personnel of oil companies. It covers petroleum geology, petroleum geophysics, petroleum engineering, petrochemistry & chemical engineering, petroleum mechanics, and economic management. It aims to introduce the latest results in oil industry research in China, promote cooperation in petroleum science research between China and the rest of the world, and build a bridge for scientific communication between China and the world.