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Geochemical distortion on shale oil maturity caused by oil migration: Insights from the non-hydrocarbons revealed by FT-ICR MS

Urheber*innen

Yuan,  Ming
External Organizations;

Pan,  Songqi
External Organizations;

Jing,  Zhenhua
External Organizations;

/persons/resource/poetz

Pötz,  Stefanie
3.2 Organic Geochemistry, 3.0 Geochemistry, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Shi,  Quan
External Organizations;

Han,  Yuanjia
External Organizations;

Zou,  Caineng
External Organizations;

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Zitation

Yuan, M., Pan, S., Jing, Z., Pötz, S., Shi, Q., Han, Y., Zou, C. (2023): Geochemical distortion on shale oil maturity caused by oil migration: Insights from the non-hydrocarbons revealed by FT-ICR MS. - International Journal of Coal Geology, 266, 104142.
https://doi.org/10.1016/j.coal.2022.104142


Zitierlink: https://gfzpublic.gfz-potsdam.de/pubman/item/item_5017510
Zusammenfassung
Oil migration may influence the reliability of molecular maturity parameters. Sample extracts from a shaly sequence subjected to intrasource migration, were characterized using FT-ICR MS and GC-MS techniques. The hydrocarbon maturity parameters including sterane isomer ratios and methylphenanthrene indexes (MPI) are relatively higher in siltstones than in shales. In contrast, the non-hydrocarbons indicate a lower maturity in siltstones as revealed by the smaller size of molecular cores, the larger length of alkyl side chains, and the more enrichment of O x species. It is concluded that this discrepancy is attributable to the petroleum migration. The thermal-stable isomers of hydrocarbons, used as numerators in the ratios, have stronger mobility consequently leading to a faster migration into siltstones. In contrast, the molecules of non-hydrocarbons with low aromatization and molecular size, and higher alkylation degrees, easily migrate into the siltstones due to relatively lower polarity, precipitability, and absorptivity. Additionally, the hydrophilic matrix surface and high porosity of the strata also facilitate the accumulation of non-hydrocarbons in the siltstones during the early diagenesis. Such findings contribute to a better understanding of oil molecular migration behavior, and suggest a caution for using geochemical indexes as maturity parameters when involving petroleum migration.