Characteristics of Cambrian Paleo-Fluid Profiles and Their Implications for Shale Gas Preservation: A Case Study from Well Yidi2 in the Central Yangtze Yichang Area

Liu, An; Qin, Shuo; Wei, Kai; Xiao, Qilin; Cai, Quansheng; Huang, Huilan; Zeng, Xiongwei; Li, Peijun

Characteristics of Cambrian Paleo-Fluid Profiles and Their Implications for Shale Gas Preservation: A Case Study from Well Yidi2 in the Central Yangtze Yichang Area

An Liu, Shuo Qin (), Kai Wei, Qilin Xiao, Quansheng Cai, Huilan Huang, Xiongwei Zeng and Peijun Li
Additional contact information
An Liu: Wuhan Centre of Geological Survey, China Geological Survey, Wuhan 430205, China
Shuo Qin: The Seventh Geological Brigade of Hubei Geological Bureau (Yichang Geological Environment Monitoring and Protection Station of Hubei Province), Yichang 443000, China
Kai Wei: Wuhan Centre of Geological Survey, China Geological Survey, Wuhan 430205, China
Qilin Xiao: College of Resources and Environment, Yangtze University, Wuhan 430100, China
Quansheng Cai: School of Geosciences, Yangtze University, Wuhan 430100, China
Huilan Huang: Wuhan Centre of Geological Survey, China Geological Survey, Wuhan 430205, China
Xiongwei Zeng: Wuhan Centre of Geological Survey, China Geological Survey, Wuhan 430205, China
Peijun Li: Wuhan Centre of Geological Survey, China Geological Survey, Wuhan 430205, China

Sustainability, 2025, vol. 17, issue 11, 1-24

Abstract: Exploration practice has proved that preservation conditions are one of the critical factors contributing to shale gas enrichment in the Middle Yangtze area. Well Yidi2 is the discovery well of Cambrian shale gas in this area. The paleo-fluid evolution and its implication for preservation conditions of shale gas remains unclear, posing challenges for shale gas exploration and development. In this study, through systematic analysis of fluid inclusions in fractrue-filling vein of the entire core section of this well, combined with carbon and oxygen isotope tests of veins and host rocks, a paleo-fluid profile was established to explore the formation environment of Cambrian paleo-fluids and their implications for the preservation conditions of the Shuijingtuo Formation (SJT Fm.) shale gas. The results suggest that fractures in the SJT Fm. shale at the base of Cambrian Series 2 mainly formed during the deep burial hydrocarbon generation stage, trapping a large number of liquid hydrocarbon inclusions. Subsequently, numerous high-density methane inclusions and a few of gas-liquid two-phase inclusions were trapped. The SO 4 2− , Ca 2+ and Mg 2+ content of fluid inclusion groups in the veins decreased from the Qinjiamiao Formation (QJM Fm.) at the bottom of Cambrian Series 3 upward and downward respectively, and the r Na + / r Cl − ratio was the lowest in the SJT Fm. and increased overall upward. The δ 13 C values of calcite veins in Tianheban Formation (THB Fm.)-Shipai Formation (SP Fm.) of the middle Cambrian Series 2 and the Loushanguan Formation (LSG Fm.) of the Cambrian Series 3 were lighter compared to the host rocks. Results indicate the later tectonic activities in this area were relatively weak, and the shale interval remained in a state of high gas saturation for a long time. The QJM Fm. was the main source of high-salinity brine, and the SJT Fm. had strong self-sealing properties and was relatively less affected by external fluids. However, the pressure evolution of high-density methane inclusions in the SJT Fm. indicated that the pressure coefficient of the shale section significantly decreased during the Indosinian uplift and erosion stage. The veins in the THB-SP and LSG Fms. were closely related to the oxidation of hydrocarbon gases by TSR (thermochemical sulfate reduction) and the infiltration of atmospheric water, respectively. Therefore, the paleo-fluid in the fractures of Well Yidi2 have integrally recorded the whole geological process including the evolution from oil to gas, the backflow of high-salinity formation water, the upward escape of shale gas, and the process of shale gas reservoirs evolving from overpressure to normal pressure. Considering that Well Yidi2 area is located in a relatively stable tectonic setting, widely distributed fracture veins probably enhance the self-sealing ability, inhibiting the rapid escape of SJT Fm. shale gas. And the rapid deposition of Cretaceous also delayed the loss of shale gas to some extent. The combination of these two factors creates favorable preservation conditions of shale gas, establishing the SJT Fm. as the primary exploration target in this area.

Keywords: Yichang area; cambrian; shale gas; paleo-fluids; inclusions; carbon and oxygen isotopes; preservation condition (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2025
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