Petrology, rank and evidence for petroleum generation, upper Triassic to Middle Jurassic coals, central Alborz Region, Northern Iran

LD Stasiuk, F Goodarzi, H Bagheri-Sadeghi - International Journal of Coal …, 2006 - Elsevier
LD Stasiuk, F Goodarzi, H Bagheri-Sadeghi
International Journal of Coal Geology, 2006Elsevier
Upper Triassic to Middle Jurassic coals from the Alborz region of northern Iran were
analyzed by reflected light-fluorescence microscopy and Rock Eval 6® pyrolysis to evaluate
their regional rank variation, degree of hydrothermal alteration, and petroleum generative
potential. The coal ranks in the region range from a low of 0.69% RoR in the Glanddeh-Rud
area to a high of 1.02% RoR in the Gajereh area. Tmax (° C) values (Rock Eval 6 pyrolysis)
also increase progressively with increasing vitrinite% Ro values, however Tmax is …
Upper Triassic to Middle Jurassic coals from the Alborz region of northern Iran were analyzed by reflected light-fluorescence microscopy and Rock Eval 6® pyrolysis to evaluate their regional rank variation, degree of hydrothermal alteration, and petroleum generative potential. The coal ranks in the region range from a low of 0.69%RoR in the Glanddeh-Rud area to a high of 1.02%RoR in the Gajereh area. Tmax (°C) values (Rock Eval 6 pyrolysis) also increase progressively with increasing vitrinite %Ro values, however Tmax is suppressed lower than would be expected for each rank ranging from 428 °C for the Glandeeh coal to 438 °C for the Gajereh coal. Tmax suppression may be caused by maceral composition and soluble organics within the coal. Moderately high hydrogen indices, persistent and oily exudations from the coals during UV exposure, and traces of hydrocarbon fluid inclusions suggest that liquid petroleum was likely generated within some of the coals.
Elsevier
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