Characteristics and geochemical implications of light hydrocarbons from ultra-deep Ordovician oils in the North Shuntuoguole area, Tarim Basin

Characteristics and geochemical implications of light hydrocarbons from ultra-deep Ordovician oils in the North Shuntuoguole area, Tarim Basin

The ultra-deep Ordovician reservoirs in the North Shuntuoguole Oilfield (or Shunbei Oilfield) of SINOPEC have achieved annual production of one million ton, and the oil & gas in different faults show different physical properties and fluid phases. In this study, the 28 oil samples from the ultra...

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Bibliographic Details
Published in:Frontiers of earth science Vol. 16; no. 3; pp. 623 - 634
Main Authors: DONG, Li, MA, Anlai, LIN, Huixi, YUN, Lu, PENG, Weilong, ZHU, Xiuxiang, WU, Xian
Format: Journal Article
Language:English
Published: Beijing Higher Education Press 01-09-2022
Springer Nature B.V
Subjects:
Alkanes
Aromatic compounds
Aromatic hydrocarbons
Biodegradation
Biomarkers
Cambrian
Chromatography
Earth and Environmental Science
Earth Sciences
evaporative fractionation
Fault zones
Fractionation
Heptanes
Hydrocarbons
Light
light hydrocarbons
Mathematical analysis
Maturity
Oil and gas fields
Oil fields
Oils & fats
Ordovician
Parameters
Physical properties
Ratios
Research Article
Reservoirs
Rocks
Sedimentary facies
Sulfur
Sulphur
Tarim Basin
Terpenes
thermochemical sulfate reduction (TSR)
Toluene
ultra-deep Ordovician reservoir
evaporative fractionation
biodegradation
ultra-deep Ordovician reservoir
thermochemical sulfate reduction (TSR)
light hydrocarbons
Tarim Basin
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Summary:The ultra-deep Ordovician reservoirs in the North Shuntuoguole Oilfield (or Shunbei Oilfield) of SINOPEC have achieved annual production of one million ton, and the oil & gas in different faults show different physical properties and fluid phases. In this study, the 28 oil samples from the ultra-deep Ordovician were analyzed using whole oil chromatography. The heptane and isoheptane values of the oil samples were in the range of 29.79%‒46.86% and 1.01%–3.06%, respectively, indicating the oils are high mature. The maturity that calculated based on light hydrocarbon values was higher than which calculated by using aromatic hydrocarbon parameters, suggesting the light hydrocarbon maturity mostly reflects the maturity of the late charged hydrocarbon. The 2M-/3M-C 5 and 2M-/3M-C 6 ratios varied in the ranges of 1.41‒1.81 and 0.79–1.09, respectively, and the iC 5/ nC 5 and 3M-C 5/ nC 6 ratios were 0.31‒0.90 and 0.16–0.37, respectively, indicating that ultra-deep Ordovician reservoirs have not experienced biodegradation. The Mango parameter K 1 of the oil samples ranges 0.96‒1.01 except for the oil from Well SB4, which suggests that most of the reservoirs have not suffered thermochemical sulfur reduction (TSR). Meanwhile, the oils have not experienced evaporative fractionation since the toluene/ nC 7 and nC 7/MCC 6 ratios range from 0.10–0.38 and 1.50‒1.80, respectively. The close correlation between P 3 and P 2 + N 2 and between P 2 and N 2/P 3 indicates that the oils from different faults have the same origin. According to the characteristics of LHs rich in n-alkane, as well as other biomarkers, such as aryl isoprenoids, and aromatic hydrocarbon parameters, the oil originated from the source rock of the Lower Cambrian Yu’ertusi Formation. Meanwhile, the source rocks in different fault zones slightly differed in organic facies.
Bibliography:evaporative fractionation
ultra-deep Ordovician reservoir
Document received on :2021-08-20
thermochemical sulfate reduction (TSR)
Tarim Basin
biodegradation
Document accepted on :2021-11-08
light hydrocarbons
ISSN:2095-0195
2095-0209
DOI:10.1007/s11707-021-0953-2