| 海相碳酸盐岩中矿物结合有机质的组成及成烃演化 |
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| 引用本文: | 张水昌,童箴言.海相碳酸盐岩中矿物结合有机质的组成及成烃演化[J].沉积学报,1992,10(1):76-82. |
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| 作者姓名: | 张水昌 童箴言 |
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| 作者单位: | 石油勘探开发科学研究院 |
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| 摘 要: | 对高成熟程度的碳酸盐岩有机质进行了地球化学研究,发现在可溶有机质与干酪根之间存在着成熟度上的差异,这种差异是矿物对沥青组份的保护作用所致.矿物结合有机质无论在组成还是在分布上都与游离态有机质有较大不同,随着成熟度的增加,由于结合态有机质的释放,这种不同逐渐消失,研究表明,矿物结合有机质的释放约在过成熟阶段早期,其量可达几百个ppm.因而在碳酸盐岩地层中,除了干酷根成油气外,在高成熟区亦可能存在着由矿物结合有机质形成的“高温”石油.
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| 关 键 词: | 碳酸盐岩 矿物结合有机质 游离有机质 解析时间 成烃演化 |
| 收稿时间: | 1991-02-19 |
The Composition and Hydrocarbon-generation Evolution of Organic Matter Associated with Carbonate Minerals |
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| Institution: | Institute of Petroleum Exploration and Development |
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| Abstract: | As the organic geochemical characteristics of marine carbonate rocks from Sinian to Triassic (Southernwest China) was studied, it was discovered that a vast amount of the extractable organic matter ( EOM) was present in carbonate cryptomerous minerals, which was wrapped up in them during early diagenesis. The organic matter was obtained by stepwise extraction in conjunction with stepwise dissolution of the carbonate and subsequently silicate minerals. The amount of the bound bitumen comes up to 176.96~ 1438.68 ppm with the average of 721.95 ppm in three limestone samples at lower maturity (R°= 0. -1.0%, over 22 percent of the total amount of the EOM. The bitumen fractions associated with minerals have the low mature features which are indicated by high content of colloid and asphaltene, obvious carbon number predominance of n-alkanes, the high concentration of unstable isomers of steranes (aa and R types), a large number of multicyclic and isomeric alkanes (e.g. C21-C40 isoprenoids, C19-C39 lng chain alkyl tricyclic terpanes, hopanes, benzohopanes, aromatic steranes etc.). When the evolution of organic matter reaches early stage of over-maturity (Rc (calculated vitrinite reflectance≈2.0%, Tmax ≈485℃, the bound bitumen fractions began to release from carbonate minerals and generate liquid hydrocarbons namely "high temperature oil". The generation tends to its end as Rc exceeds 3.0%. The processes have been verified by a thermal experiment in laboratory. Therefore, contributions to the formation of oil and in carbonate are made not only by kerogen but also by associated organic matter. Owing to the main components of carbonate organic matter are protein. carbohydrate and lipid, and the kerogen content in carbonate rocks is lower (about 50 percent of the total amount of organic matter) the mudstone, it appears that the soluble organic matter (free and bound) in carbonate produces directly hydrocarbons is more important. |
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