Study on the Propagation Law of CO<sub>2</sub> Displacement in Tight Conglomerate Reservoirs in the Mahu Depression, Xinjiang, China

Study on the Propagation Law of CO<sub>2</sub> Displacement in Tight Conglomerate Reservoirs in the Mahu Depression, Xinjiang, China

To achieve the efficient utilization of low-permeability tight sand and gravel reservoirs with strong heterogeneity in the Mahu oil area of Xinjiang, CO<sub>2</sub> injection is used to improve oil recovery. The sweep pattern of the injected gas is closely related to the development of r...

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Bibliographic Details
Main Authors: Long Tan, Jigang Zhang, Jing Zhang, Ruihai Jiang, Jianhua Qin, Yan Dong, Zhenlong Deng, Ping Song, Chenguang Cui, Wenya Zhai, Fengqi Tan
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Energies
Subjects:
Mahu Depression
CO<sub>2</sub> displacement
full-diameter core
online magnetic resonance scanning
average pore-throat radius
Online Access:https://www.mdpi.com/1996-1073/18/4/990
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Summary:To achieve the efficient utilization of low-permeability tight sand and gravel reservoirs with strong heterogeneity in the Mahu oil area of Xinjiang, CO<sub>2</sub> injection is used to improve oil recovery. The sweep pattern of the injected gas is closely related to the development of reservoir pores and throats. Firstly, a three-dimensional model of the average pore-throat radius was established based on complete two-dimensional nuclear magnetic resonance scanning data of the target layer’s full-diameter core in the Wuerhe Formation. Subsequently, an online NMR injection CO<sub>2</sub> continuous oil displacement experiment was conducted using tight conglomerate rock cores to clarify the rules of CO<sub>2</sub> oil displacement in each pore-throat interval. Finally, the three-dimensional pore-throat model was combined with microscopic utilization patterns to quantitatively characterize the reservoir utilization rate of the CO<sub>2</sub> displacement oil and guide on-site dynamic analysis. The research results indicate that the reservoir space of the Wuerhe Formation is mainly composed of residual intergranular pores, accounting for 40.9% of the pores, followed by intragranular dissolution pores and shrinkage pores. The proportion of pore-throat coordination numbers less than 1 is relatively high, reaching 86.3%. The average pore-throat radius calculation model, established using online NMR data from the continuous coring of full-diameter cores, elucidates the characteristics of the average pore-throat radius in the Wuerhe Formation reservoir. Based on gas displacement experiments that explored the pore-throat behavior at the microscale, the calibrated CO<sub>2</sub> injection oil recovery rate was determined to be 43.9%, and the proportion of reserves utilized within the main range during CO<sub>2</sub> displacement amounted to 60.77%. The injection pressure is negatively correlated with the maximum pore-throat radius of the gas injection well group, and negatively correlated with the proportion of the 0.9~2 μm distribution of large pore throats in each gas injection well group.
ISSN:1996-1073

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