Origin of the Gas Hydrate and Free Gas in the Qilian Permafrost, Northwest China: Evidence from Molecular Composition and Carbon Isotopes

Tan, Fang; Yang, Li; Du, Fangpeng; Liu, Shiming; Cui, Weixiong; Zhiwu, Liu; Geng, Q.; Lu, Ping

doi:10.1111/1755-6724.14650

Cited by 5 publications

(1 citation statement)

References 51 publications

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“…Biomarkers are known as molecular fossils, and are another important occurrence form of ancient organisms in strata besides solid fossils, mold fossils, and relic fossils (Tan et al 2021). The characteristics of the three sets of source rocks in the Hewanchang structure and the biomarker compounds of the Lower Permian were compared.…”

Section: Biomarkermentioning

confidence: 99%

The origin and source of natural gas in the Lower Permian in Hewanchang area, Northwest Sichuan

Tan

Liao

et al. 2021

Arab J Geosci

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The Lower Permian is rich in natural gas resources in the northwestern Sichuan Basin of China. However, the cause and source of natural gas are still unclear. In this paper, core observation and thin slice identification under the microscope. The geochemical characteristics of the study area are combined. The biomarker characteristics of the reservoir and source rock in the study area are combined to determine the genesis of Lower Permian natural gas. The results show that (1) according to the Hewanchang natural gas He and CO 2 content combined with ln(C 1 /C 2 ) and ln(C 2 /C 3 ) intersection diagrams. By comparison, it is found that the natural gas in the Hewanchang structure is a typical crude oil cracked gas; (2) only a small amount of asphalt was found in the Lower Permian in the Hewanchang structure. It shows that the scale of crude oil cracking is not large. Less crude oil cracked gas is produced. However, large-scale pitch veins have been discovered in the Cambrian in northwestern Sichuan. It shows that large-scale crude oil cracking occurred in Cambrian reservoirs; (3) the biomarker characteristics of the extracts from the Lower Permian reservoirs are similar to those of the Lower Permian source rocks. It shows that the bitumen in the Lower Permian reservoir is formed by the cracking of the Lower Permian crude oil. The late structural adjustment resulted in the Hewanchang natural gas reservoir being formed by a large amount of Cambrian formation crude oil cracked gas and a small amount of Lower Permian crude oil cracked gas. Keywords Northwest Sichuan • Oil cracking gas • Helium • Reservoir bitumen • Hydrocarbon accumulation mode Geological backgroundThe Sichuan Basin is the largest gas-bearing basin in China. Throughout the Sinian-Jurassic, there are more than 20 reservoirs developed. Among them, the Lower Permian

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Section: Biomarkermentioning

confidence: 99%

The origin and source of natural gas in the Lower Permian in Hewanchang area, Northwest Sichuan

Tan

Liao

et al. 2021

Arab J Geosci

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First discovery of biodegraded petroleum in the South Qilian Basin, Northwest China: Implications for the origin of gas hydrates

Tan

Han

et al. 2023

Journal of Asian Earth Sciences

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Raman Micro‐Imaging of the Coexistence of sI and sII Hydrates Formed from a Mixed Methane‐Propane Gas in a Confined Space

Cai

Zhan

Huang

et al. 2022

Acta Geologica Sinica (Eng)

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Natural gas hydrate contains a specific amount of heavy hydrocarbons, such as ethane, propane, etc., aside from the primary guest gas of methane. Although the coexistence of two or even three hydrate structures has been discovered at several hydrate sites, the requisite formation mechanism is still not well understood. In‐situ observation of the formation process of mixed methane‐propane hydrate in a confined space was conducted using confocal Raman imaging microscopy. The Raman imaging results reveal that sI methane hydrate and sII mixed methane‐propane hydrate are formed and coexist in the reaction system. In the confined space, the sI hydrate originates from the dissolved gas in water, while the sII hydrate is formed from free gas. The results obtained can help explain the coexistence of sI and sII hydrates found in natural hydrate samples, as well as providing insights into a possible dynamic scenario of hydrate reservoirs in geological history.

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Origin of the Gas Hydrate and Free Gas in the Qilian Permafrost, Northwest China: Evidence from Molecular Composition and Carbon Isotopes

Cited by 5 publications

References 51 publications

The origin and source of natural gas in the Lower Permian in Hewanchang area, Northwest Sichuan

The origin and source of natural gas in the Lower Permian in Hewanchang area, Northwest Sichuan

First discovery of biodegraded petroleum in the South Qilian Basin, Northwest China: Implications for the origin of gas hydrates

Raman Micro‐Imaging of the Coexistence of sI and sII Hydrates Formed from a Mixed Methane‐Propane Gas in a Confined Space

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