Numerical Simulation Study on Steam-Assisted Gravity Drainage Performance in a Heavy Oil Reservoir with a Bottom Water Zone

Ni, Jun Jun; Zhou, Xiang; Yuan, Qingwang; Lu, Xinqian; Zeng, Fanhua; Wu, Keliu

doi:10.3390/en10121999

Cited by 9 publications

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“… 3 , 6 However, the efficiency of some fishbone wells is too low to make the process economical. 7 The reason for this is that the different structural parameters can result in significant interference and large difference in oil and water distribution. Therefore, it is of great significance to clarify the waterflooding characteristics and remaining oil distribution with different structures.…”

Section: Introductionmentioning

confidence: 99%

“…The fishbone well has been approved as an effective technology for EOR of heavy oil, conventional reservoir in thin layers, and tight oil. , However, the efficiency of some fishbone wells is too low to make the process economical . The reason for this is that the different structural parameters can result in significant interference and large difference in oil and water distribution.…”

Section: Introductionmentioning

confidence: 99%

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Dynamic Distribution Characteristics of Oil and Water during Water Flooding in a Fishbone Well with Different Branch Angles

et al. 2022

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Lab experiments, field pilots, and numerical modeling focusing on fluid flow aspects have indicated that multi-branch wells are technically effective and promising. Several researchers have conducted some experiments for a fishbone well strategy with mixed results. Our objective in this work is to study the impact of the different fishbone well patterns, such as branch angle, on the distribution of remaining oil after water flooding. In this paper, the interference effect between branches on oil recovery is studied in three steps. First, the interferences between fishbone wells with different branch angles were measured by hydro-electric simulation experiments. Second, two-dimensional visualization water flooding experiments were carried out to clarify the remaining oil distribution at different branch angles. Third, the distribution of oil and water in fishbone wells was verified by establishing a numerical model. The modeling results agree well with the experimental phenomena. At the same time, the variation trend of water and oil production in each branch is analyzed by numerical simulation results. The results indicate that the production is strongly dependent on the branch angles, and the highest recovery was 60.2% at a 45° branch angle.

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Section: Introductionmentioning

confidence: 99%