A Simplified Capillary Bundle Model for CO2-Alternating-Water Injection Using an Equivalent Resistance Method

Wang, Wendong; Meng, Fankun; Su, Yuliang; Hou, Lei; Geng, Xueyu; Hao, Yongmao; Li, Lei

doi:10.1155/2020/8836287

Geofluids

2020

DOI: 10.1155/2020/8836287

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A Simplified Capillary Bundle Model for CO2-Alternating-Water Injection Using an Equivalent Resistance Method

Wendong Wang

Fankun Meng

Yuliang Su

et al.

Abstract: CO2-alternating-water injection is an effective way of enhancing recovery for low-permeability oil reservoirs. The injection process is one of the essential issues that are facing severe challenges because of the low permeability and poor pore space connectivity. Previous researchers mentioned that water injection ability could be decreased by around 20% after the CO2-flooding; hence, it is necessary to quantify the water injectivity variation during an alternated injection process. In this paper, a CO2 convec… Show more

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Cited by 3 publications

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“…10.3389/feart.2024.1418087 Wang et al, 2020). In addition, the effects of CO 2 viscous fingering and gas override are weakened largely (Singh, 2018).…”

mentioning

confidence: 99%

Experimental and numerical studies on CO2 injectivity in low permeability oil reservoirs

Meng,

Cao,

Zhou

et al. 2024

Front. Earth Sci.

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Introduction: Contrary to the traditional recognition that CO2 has large injectivity (the ratio of CO2 injection volume to pressure drop) in low permeability oil reservoirs to keep the formation pressure at a high level, the CO2 injection rate usually cannot attain the set value. It is essential to study the factors that influence CO2 injectivity and propose the optimal strategies to improve the CO2 injectivity.Methods: Therefore, in this study, several core samples collected from low permeability oil reservoirs are used to experimentally investigate the influences of CO2 injection rate, formation permeability, pressure and water saturation on CO2 injectivity, and the corresponding pressure drop, oil and gas production are examined. To determine the primary factor that influences the CO2 injectivity, orthogonal experimental design (ODE) and numerical simulations are utilized. In addition, to improve CO2 injectivity, the techniques of mini-fracturing and radial perforation are presented, and the threshold values for these two parameters are determined.Result and discussion: The results demonstrate that according to the magnitude of the extent that influences CO2 injectivity, the rank for the above factors is CO2 injection rate, reservoir pressure, formation water saturation and permeability. The oil recovery is mainly influenced by CO2 injection rate and formation permeability, and the influences of reservoir pressure and water saturation on oil recovery are smaller. The threshold values for radial perforation and fracture half-length are 25 m and 50m, respectively, which can provide some guidance for the strategies that should be taken to improve the CO2 injectivity and recover more oil from low permeability oil reservoirs.

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“…10.3389/feart.2024.1418087 Wang et al, 2020). In addition, the effects of CO 2 viscous fingering and gas override are weakened largely (Singh, 2018).…”

mentioning

confidence: 99%

Experimental and numerical studies on CO2 injectivity in low permeability oil reservoirs

Meng,

Cao,

Zhou

et al. 2024

Front. Earth Sci.

Self Cite

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Theoretical analysis and verification of the influence of bubble, pore throat and water film on pore water seepage characteristics-taking sandstone as the research object

Fan,

Song,

et al. 2023

Archiv.Civ.Mech.Eng

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Water Invasion Mode of Carbonate Gas Reservoirs Controlled by Edge Water: Three Invasion Modes

2022

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A Simplified Capillary Bundle Model for CO2-Alternating-Water Injection Using an Equivalent Resistance Method

Cited by 3 publications

References 20 publications

Experimental and numerical studies on CO2 injectivity in low permeability oil reservoirs

Experimental and numerical studies on CO2 injectivity in low permeability oil reservoirs

Theoretical analysis and verification of the influence of bubble, pore throat and water film on pore water seepage characteristics-taking sandstone as the research object

Water Invasion Mode of Carbonate Gas Reservoirs Controlled by Edge Water: Three Invasion Modes

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