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生排烃过程中正构烷烃单体碳同位素组成的变化特征及其研究意义
引用本文:熊永强,耿安松,盛国英,傅家谟. 生排烃过程中正构烷烃单体碳同位素组成的变化特征及其研究意义[J]. 沉积学报, 2001, 19(3): 469-473
作者姓名:熊永强  耿安松  盛国英  傅家谟
作者单位:中国科学院广州地球化学研究所 广州 510640
摘    要:通过对生排烃模拟实验产物 (残留油和排出油 )中正构烷烃单体碳同位素组成的测定,揭示出生排烃过程中正构烷烃碳同位素组成的变化特征。研究表明,生烃初期,液态正构烷烃主要来自干酪根的初次裂解,它们的碳同位素组成不论是在排出油中还是在残留油中,随温度的变化都不明显,呈现较相似的分布特征;在生烃高峰期,早期形成的沥青质和非烃等组分的二次裂解以及高碳数正构烷烃可能存在的裂解,使得正构烷烃单体碳同位素组成明显富集13 C,尤其在高碳数部分呈现出较大的差异。另外,实验结果显示排烃作用对液态正烷烃单体碳同位素组成的影响不太显著。

关 键 词:生排烃作用   残留油   排出油   正构烷烃   GC-IRMS
文章编号:1000-0550(2001)03-0469-05
收稿时间:2000-07-03
修稿时间:2000-07-03

Characteristics of Carbon Isotopic Composition of N-alkanesduring Hydrocarbon Generation and Expulsion and Its Significance
XIONG Yong qiang GENG An song SHENG Guo ying FU Jia mo. Characteristics of Carbon Isotopic Composition of N-alkanesduring Hydrocarbon Generation and Expulsion and Its Significance[J]. Acta Sedimentologica Sinica, 2001, 19(3): 469-473
Authors:XIONG Yong qiang GENG An song SHENG Guo ying FU Jia mo
Affiliation:Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640
Abstract:Gas chromatography isotope ratio mass spectrometry (GC IRMS) has been widely applied in the various fields of organic geochemistry, e.g. identifying organic source, correlating oil with possible source rocks, and reconstructing paleoenvironment and paleoclimate. The carbon isotopic composition of n alkanes from oils and extracts has played an important role in oil and natural gas geochemistry. Previous studies indicate that the hydrocarbon generation and expulsion has obvious effects on the distribution of n alkanes and other biomarkers, e.g. steranes and terpanes. This paper tries to reveal the characteristics of carbon isotopic composition of n alkanes during hydrocarbon generation and expulsion by determining the δ 13 C values of the n alkanes in the pyrolysates (residual oils and expelled oils). The results indicate that the liquid n alkanes are mainly derived from the primary cracking of kerogen during the early hydrocarbon generation, so,whether in the expelled oils or in the residual oils, their isotopic compositions have no obvious variation (less than 2‰) with increasing temperature, and display a similar distribution. It suggests that they can be used in oil/oil correlation. However, at the peak of hydrocarbon generation, the second cracking of those heavy hydrocarbons formed at the early stage, such as asphaltene, NSO fraction, and n alkanes with high carbon number, makes the remaining n alkanes markedly riched13 C in carbon isotope, especially for the heavily weighed fraction. Significant differences (1 to 4‰) in the carbon isotopic compositions are observed between the n alkanes in the residual oils or the expelled oils generated at this stage and those formed at the former stage. Since thermal maturation has effects on the carbon isotopic compositions of n alkanes due to different generation mechanisms may occur at the different stages, therefore, to explain the significant difference when taking the oil/oil and oil/source correlations, we also need consider thermal maturation other than organic source. The conclusion of heterogeneity should not be made easily. In addition, the experimental results show that the hydrocarbon expulsion has no considerable effect on the carbon isotopic composition of the liquid n alkanes.
Keywords:hydrocarbon generation expulsion expelled oil residual oil n alkane GC IRMS
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