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Enhancing Oil Recovery in Low Permeability Reservoirs through CO<sub>2</sub> Miscible Flooding: Mechanisms and Dynamics

Xinliang Chen, Zhengming Yang, Hongwei Yu, Zhongkun Niu, Wen Li, Ninghong Jia, Wenming Wang, Yapu Zhang, Haibo Li, Yilin Chang

2024ACS Omega21 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Understanding the dynamic characterization of the CO 2 miscible flooding process in low permeability reservoirs and its mechanism for oil recovery enhancement is crucial for controlling CO 2 miscible flooding sweep efficiency and further enhancing oil recovery. This study was conducted in a low permeability reservoir in Jilin, China, using both online nuclear magnetic resonance CO 2 miscible flooding and long-core CO 2 miscible flooding experiments. A refined dynamic characterization of the CO 2 miscible flooding process from the macroscopic core scale to the microscopic pore scale was achieved through multiple spatial online nuclear magnetic resonance testing methods. Analysis of dynamic characteristics of physical parameters was based on long-core displacement experiments and gas chromatography. This study summarizes the influence mechanism of CO 2 miscible flooding on enhanced oil recovery in low permeability reservoirs and demonstrates the feasibility of CO 2 miscible flooding. The results indicated that (1) CO 2 miscible flooding enables simultaneous oil recovery from micro-, meso-, and macropores, significantly improving displacement efficiency. (2) The recovery process unfolds in two stages: the initial CO 2 miscible flooding stage before gas breakthrough and the subsequent CO 2 miscible transport stage after gas breakthrough. (3) Both stages are instrumental in expanding the macroscopic swept range of CO 2, thereby enhancing oil recovery. (4) The miscibility of CO 2 with crude oil can affect the oil’s composition. (5) The combined effect of miscible flooding and transport underpins the high displacement efficiency of CO 2 miscible flooding. Emphasizing these critical aspects could enhance oil recovery from CO 2 miscible flooding in field production.

Topics & Concepts

Enhanced oil recoveryPetroleum engineeringMiscibilityFlooding (psychology)Permeability (electromagnetism)Water floodingMaterials scienceEnvironmental scienceChemistryGeologyComposite materialPolymerPsychotherapistMembraneBiochemistryPsychologyEnhanced Oil Recovery TechniquesHydrocarbon exploration and reservoir analysisCO2 Sequestration and Geologic Interactions