Organic petrography and geochemistry of the prolific source rocks from the Jurassic Najmah and Cretaceous Makhul Formations in Kuwait – Validation and expansion of Raman spectroscopic thermal maturity applications

Organic petrography and geochemistry of the prolific source rocks from the Jurassic Najmah and Cretaceous Makhul Formations in Kuwait – Validation and expansion of Raman spectroscopic thermal maturity applications

Raman spectroscopy has been applied in numerous sedimentary formations to infer thermal maturity of mostly Type-II kerogen in organic-rich mudrocks. Robust correlations have been established between the Raman spectroscopic signal and vitrinite reflectance equivalents (%VRE) of the organic matter. He...

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Bibliographic Details
Published in:International journal of coal geology Vol. 236; p. 103654
Main Authors: Al-Hajeri, Mubarak, Sauerer, Bastian, Furmann, Agnieszka, Amer, Aimen, Al-Khamiss, Awatif, Abdallah, Wael
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2021
Subjects:
Hydrogen index
Makhul Formation
Maturity
Najmah Formation
Raman spectroscopy
Shale
Type II-S kerogen
Hydrogen index
Shale
Najmah Formation
Raman spectroscopy
Maturity
Makhul Formation
Type II-S kerogen
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Summary:Raman spectroscopy has been applied in numerous sedimentary formations to infer thermal maturity of mostly Type-II kerogen in organic-rich mudrocks. Robust correlations have been established between the Raman spectroscopic signal and vitrinite reflectance equivalents (%VRE) of the organic matter. Herein, traditional evaluation methods, organic petrography and geochemistry, were applied in addition to Raman spectroscopy, to study the prolific source rocks of the Najmah and Makhul Formations in Kuwait. The elemental analysis of isolated kerogen provided insight into the kerogen type and likely classified samples from these two formations as kerogen Type II-S. The standard organic petrography maturity and geochemistry parameters were correlated to the spectroscopy derived Raman band separation (RBS) values. This allowed to further validate our previously established thermal maturity correlation (RBS vs %VRE with R2 = 0.80) and generate a new geochemistry-related correlation of RBS vs hydrogen index (HI) with R2 = 0.92. •Application of Raman spectroscopy to infer thermal maturity of unconventional formation samples•Comprehensive case study in the Najmah and Makhul Formations in Kuwait•Good agreement between Raman spectroscopy and organic petrography•Geochemical analysis of mineral composition by XRD•Novel correlation between Raman spectral features and pyrolytic hydrogen index
ISSN:0166-5162
1872-7840
DOI:10.1016/j.coal.2020.103654