posted on 2021-03-11, 11:29authored byJingfei Li, Zhiyao Zhang, Guangyou Zhu, Kun Zhao, Linxian Chi, Pengju Wang, Yongjin Chen
A series of trace compounds (diamondoids,
ethanodiamondoids, and
thiadiamondoids) were detected through two-dimensional gas chromatography/time-of-flight
mass spectrometry (GC × GC-TOFMS) analysis of Ordovician condensate
samples from the Tazhong area. Gas chromatography-mass spectrometry
(GC-MS) analysis showed that the biomarker parameters are less effective
for high-maturity oils. Carbon isotope and geochemical features suggested
that the gas is a high-temperature cracking gas when its temperature
is higher than 170 °C. The H2S content is 8.27%, suggesting
that it is affected by thermochemical sulfate reduction (TSR). However,
the geological analysis indicated that the Ordovician reservoirs do
not satisfy the conditions for TSR. The high-maturity oil in the Ordovician
reservoirs may generate diamondoids and ethanodiamondoids when cracking,
while TSR and severe cracking occur in deep Cambrian source rocks
and produce a large number of diamondoids, ethanodiamondoids, organic
sulfur compounds (OSCs), etc. The secondary geochemical products that
are carried up by the dry gas and migrate upward through faults and
are enriched in Ordovician crude oil reservoirs. On this basis, we
proposed that the condensate presented was formed by the mixing of
dry gas from Cambrian oil that was altered by cracking and TSR into
Ordovician in situ slightly cracked oil, therefore speculating that
the favorable reservoir–seal assemblages in this area may contain
abundant oil and gas resources. Consequently, improved knowledge of
secondary alteration effects on the reservoir and underground fluids
is vital for oil and gas prediction and exploration development in
the next step.