Petrology and hydrocarbon significance of the coaly source rocks from the Pinghu Formation in the Xihu Sag, East China Sea Shelf Basin

Liu, Jinshui; Kang, Shilong; Shen, Wenchao; Qin, Lanzhi; Zhou, Qianyu; Li, Shuxia; Ding, F.; Shao, Longyi

doi:10.1177/0144598720912344

Cited by 15 publications

(28 citation statements)

References 35 publications

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“… 13 Liu suggested that effective HI values of the Pinghu coal were elevated about 0–99 mg·HC/g·TOC with an average of 33 mg·HC/g·TOC compared to the measured HI values. 27 As a result, the organic abundance in our analyzed samples could be an underestimate, and oil-prone source rocks should have occupied a larger proportion. Hydrocarbon expulsion will occur when EOM yields are >30 mg·HC/g·TOC.…”

Section: Discussionmentioning

confidence: 88%

“…A predominance of type II kerogen of the coaly source rocks in the Pinghu Formation has been reported by Liu et al based on petrology methods. 27 …”

Section: Discussionmentioning

confidence: 99%

“…A series of petroliferous structures have been discovered in recent years, including two oil and gas fields with reserves up to a hundred million tons of oil equivalent. 27 Four sets of source rocks have been found in the Xihu Sag, including the Baoshi, Pinghu, Huagang, and Longjing formations in ascending order ( Figure 2 ). 26 , 27 Coal and coal-bearing mudstones in the Pinghu Formation are widespread in the Xihu Sag and account for a significant portion of the four sets of source rocks.…”

Section: Introductionmentioning

confidence: 99%

“…43 Liu et al revealed a correlation between hydrocarbon generation potential and maceral composition. 27 Zhu et al illustrated the hydrocarbon generation potential characteristics of Paleogene source rocks in the Xihu Sag. 34 This study focuses on the origin and depositional environments of the organic matter to provide a better constraint on precursor plant associations of the Pinghu coaly source rocks in the Xihu sag.…”

Section: Introductionmentioning

confidence: 99%

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Hydrocarbon Generation Potential and Depositional Setting of Eocene Oil-Prone Coaly Source Rocks in the Xihu Sag, East China Sea Shelf Basin

et al. 2020

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The Xihu Sag in the East China Sea Shelf Basin is a focus for hydrocarbon exploration and development. Hydrocarbons in the Xihu Sag are believed to have mainly originated from coals in the Paleogene Pinghu Formation (shortened as Pinghu coal). In this study, the hydrocarbon generation potential, origin of organic matter, and depositional setting of the Pinghu coal were analyzed by means of optical microscopic analysis, bulk organic geochemistry, and molecular geochemistry analysis. The results reveal that the maceral compositions of the Pinghu coal are characterized by a predominance of vitrinite (73.91–96.13%) with relatively high contents of liptinite (1.47–23.02%) and only minor amounts of inertinite (0–5.18%). Type II–III kerogen and high values of TOC (total organic carbon) (8.24–56.77%), EOM (extractable organic matter) (14 601–112 259 ppm), and HI (hydrogen index) (178.76–291.18 mg·HC/g·TOC) indicate that the Pinghu coal is both gas- and oil-prone and could not only generate but also expel hydrocarbons. The results of vitrinite reflectance (0.54–0.90%), Tmax (421–453 °C), and biomarker-related parameters, including CPI (carbon preference index) (1.10–1.61), OEP (odd-to-even predominance) (1.09–1.49), 22S/(22S + 22R) for C 31 homohopane (0.59–0.62), and 22S/(22S + 22R) for C 32 homohopane (0.57–0.60), suggest that these coaly source rocks have entered the hydrocarbon generation threshold, most of which have entered the expulsion threshold. Biomarker-related parameters of ∑ n -C 21- /∑ n -C 22+ (0.38–3.62), Pr/Ph (3.33–9.23), Pr/ n -C17 (1.91–14.88), Ph/ n -C18 (0.35–1.83), 22S/(22S+22R) of C 31 homohopane (0.59–0.62), 22S/(22S + 22R) of C 32 homohopane (0.57–0.60), 1,2,7-TMN/1,3,7-TMN (0.74–14.39), and 1,2,5-TMN/1,3,6-TMN (2.22–21.07) suggest that organic matter in the Pinghu coal was deposited under relatively oxic peatland conditions characterized by a predominance of terrestrial higher plant input, especially the resin-rich Pinaceae and Taxodiaceae . The absence of combustion-derived PAHs indicates that neither vegetation fire nor peat fire occurred very frequently during the formation of peat. Areas in the Xihu sag with considerable thicknesses of coal should be paid particular attention for future hydrocarbon exploration. From a global perspective, Cenozoic coaly source rocks, which are characterized by a relatively high content of aliphatic components, should be paid special attention for their oil-prone properties related to the advent of conifer plants.

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Section: Discussionmentioning

confidence: 88%

“…A predominance of type II kerogen of the coaly source rocks in the Pinghu Formation has been reported by Liu et al based on petrology methods. 27 …”

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Hydrocarbon Generation Potential and Depositional Setting of Eocene Oil-Prone Coaly Source Rocks in the Xihu Sag, East China Sea Shelf Basin

et al. 2020

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“…However, the Pinghu coal deposits contain significantly higher amount of liptinite (1.47-23.02%; Kang et al, 2020) than the Laisong coals. The vitrinite reflectance of the Pinghu coals (0.55-1.28%) is also much higher than the Laisong coal, owing to deeper depth of burial and steeper geothermal gradient in the Xihu Sag (Liu et al, 2020) (Kang et al, 2020). The coal measure of the Oligocene Yacheng Formation is the most important source rock sequence in the Qiongdongnan Basin in the South China Sea region that had entered a phase of mass gas generation, owing to its high degree of thermal evolution and subsidence (Gongcheng et al, 2019).…”

Section: Comparisons With Regional Depositsmentioning

confidence: 99%

Organic geochemistry and petrology of the coals in the Laisong Formation, Naga Schuppen Belt, NE India: Inferences on hydrocarbon potential and depositional environment

et al. 2021

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The Oligocene Laisong Formation in the Naga Schuppen Belt is coal bearing along the Dimapur-Kohima Road section, Nagaland. The coals are sulphurous and classified as lignite to sub-bituminous 'C' based on various rank parameters. The coals are dominantly composed of vitrinite followed by inertinite and liptinite in order of abundance. The coals have high-quality Type III kerogens derived mainly from angiosperm plants. The richness and quality of organic matter in the coal is excellent to act as a petroleum source rock. Most of the maturity parameters indicate that maturity ranges from immature to early mature. The biomarker parameters and facies critical maceral associations point to deposition of the coal-bearing strata in non-marine/ terrestrial depositional environment under moist hydrodynamic conditions, possibly in an upper delta plain environment. However, the high sulphur content of the coal points to deposition in a lower delta plain environment. Comparison with other Palaeogene coal deposits of the same sedimentary basin shows that the Laisong coals contain lesser amount of liptinite macerals and much higher amount of sulphur than these deposits. All these deposits are of similar rank, however, the Laisong coals show marginally low thermal maturity from the viewpoint of hydrocarbon generation.

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Astronomical forcing in Eocene coal‐bearing series: A case study from the Pinghu Formation in Xihu Sag, East China Sea Shelf Basin

Zhang,

Qin,

Shao

et al. 2024

Geological Journal

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The coal‐bearing series of the Eocene Pinghu Formation is one of the focused reservoir exploration in the Xihu Sag. This study conducted a cyclostratigraphy time series analysis using natural gamma‐ray (GR) logging data from four boreholes of the Xihu Sag. The spectral analysis shows a good match with the La2004 orbital solution. The sedimentation duration calculated by the astronomical age models spans at least 4.31–5.94 Myr, with an average sedimentation rate of 13.47–18.57 cm/kyr. The Pinghu Formation is subdivided into 1 second‐order, 3 third‐order and 14 fourth‐order sequences within seismic, well logging and 405 kyr‐long cycles constraints. Based on available age‐control data, the Pinghu Formation is corresponding to the middle‐late Eocene. The floating astronomical timescale of XH‐3 borehole now provides a new age constraint for the Pinghu Formation. There are four shorter‐term (<2 Myr) regional sea‐level cycles in the Pinghu Formation, which are similar to the calibrated global sea‐level fluctuations. Inconsistencies between reconstructed sea‐level curve by sedimentary noise modelling and true sea level inferred from lithology and sequence reveal various sources of noise in the sedimentary record. Variations in the distribution and thickness of coal seams in the Pinghu Formation appear to be a stratigraphic response to astronomical and non‐astronomical forcing such as regional tectonicssm and facies changes.

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Petrology and hydrocarbon significance of the coaly source rocks from the Pinghu Formation in the Xihu Sag, East China Sea Shelf Basin

Cited by 15 publications

References 35 publications

Hydrocarbon Generation Potential and Depositional Setting of Eocene Oil-Prone Coaly Source Rocks in the Xihu Sag, East China Sea Shelf Basin

Hydrocarbon Generation Potential and Depositional Setting of Eocene Oil-Prone Coaly Source Rocks in the Xihu Sag, East China Sea Shelf Basin

Organic geochemistry and petrology of the coals in the Laisong Formation, Naga Schuppen Belt, NE India: Inferences on hydrocarbon potential and depositional environment

Astronomical forcing in Eocene coal‐bearing series: A case study from the Pinghu Formation in Xihu Sag, East China Sea Shelf Basin

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