Research on the Timing of WAG Intervention in Low Permeability Reservoir CO2 Flooding Process to Improve CO2 Performance and Enhance Recovery

Zhao, Lekun; Sang, Guoqiang; Ding, Jialei; Sun, Jiangfei; Liu, Tongjing; Yao, Yuedong

doi:10.3390/en16217373

Cited by 2 publications

(2 citation statements)

References 38 publications

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“…Lekun et al [16] conducted experimental research to investigate the CO2 displacement process in both homogeneous and heterogeneous cores. Furthermore, they validated the correlation between the timing of WAG injection and the heterogeneity of the cores.…”

Section: Tertiary Oil Recoverymentioning

confidence: 99%

The Application of Water Alternating Gas Injection to Maximize Oil Recovery in the Niger Delta

Ita,

Ndubuka,

Livinus

et al. 2024

JERR

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One of the most significant challenges for extending production life in mature waterflood fields is high water cut. Couple with high reservoir heterogeneity, extensive layering and faulting, these fields often developed irregular flood patterns after decades of production which compounded the challenge of optimizing recovery from these fields. The severity of this problem has been observed in the Niger Delta oil fields, where several matured fields are producing at high water cut after many years of waterflooding. This study aimed to determine the viability of Water Alternating Gas (WAG) injection in comparison with Waterflooding and Gas injection methods for optimum oil recovery of an oil field in Niger Delta. WAG injection had a maximum field oil efficiency (FOE) of 31%, a field oil production total (FOPT) of 4,944 MMSTB, a plateau time of 14 years and a total field water production (FWPT) of 18,356 MMSTB. Waterflooding had a FOE of 23%, a FOPT of 37,466 MMSTB, a plateau time of 9 years and a FWPT of 96,895 MMSTB. Whereas gas injection had an FOE of 15%, a FOPT of 36,063 MMSTB, a plateau time of 3.2 years, and a FWPT of 13,444 MMSTB, respectively. From the comparative analysis of the three recovery methods, WAG injection outperformed both waterflooding and gas injection with the highest FOE of 31% and the longest plateau time of 14 years, respectively.

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Section: Tertiary Oil Recoverymentioning

confidence: 99%

The Application of Water Alternating Gas Injection to Maximize Oil Recovery in the Niger Delta

Ita,

Ndubuka,

Livinus

et al. 2024

JERR

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show abstract

“…As a result, this study introduces a variable WAG ratio injection strategy . It recommends aligning the WAG ratio with the three-phase saturation in interwell channels across different injection stages . Furthermore, the study also outlines a methodology for determining the optimal timing for adjustments to the WAG ratio.…”

Section: Introductionmentioning

confidence: 99%

Tailoring Water–Gas Ratios to Saturation Distribution for Improved Oil Recovery in Low-Permeability Reservoirs

Zhao,

Liu,

et al. 2024

ACS Omega

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Research on the Timing of WAG Intervention in Low Permeability Reservoir CO2 Flooding Process to Improve CO2 Performance and Enhance Recovery

Cited by 2 publications

References 38 publications

The Application of Water Alternating Gas Injection to Maximize Oil Recovery in the Niger Delta

The Application of Water Alternating Gas Injection to Maximize Oil Recovery in the Niger Delta

Tailoring Water–Gas Ratios to Saturation Distribution for Improved Oil Recovery in Low-Permeability Reservoirs

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