Author
Listed:
- Zhe Zhang
(School of Petroleum Engineering, Xi‘an Shiyou University, Xi’an 710065, China)
- Hongjun Gan
(The Second Production Plant, SINOPEC Henan Oilfield Branch, Nanyang 473400, China)
- Chao Zhang
(The Second Production Plant, SINOPEC Henan Oilfield Branch, Nanyang 473400, China)
- Shengbin Jia
(The Second Production Plant, SINOPEC Henan Oilfield Branch, Nanyang 473400, China)
- Xianzheng Yu
(The Second Production Plant, SINOPEC Henan Oilfield Branch, Nanyang 473400, China)
- Kejian Zhang
(The Second Production Plant, SINOPEC Henan Oilfield Branch, Nanyang 473400, China)
- Xinyu Zhong
(Xi’an Key Laboratory of Tight Oil (Shale Oil) Development, Xi’an Shiyou University, Xi’an 710065, China)
- Xiaolei Zheng
(School of Earth Sciences and Engineering, Xi’an Shiyou University, Xi’an 710065, China)
- Tao Shen
(School of Earth Sciences and Engineering, Xi’an Shiyou University, Xi’an 710065, China)
- Le Qu
(Xi’an Key Laboratory of Tight Oil (Shale Oil) Development, Xi’an Shiyou University, Xi’an 710065, China
School of Earth Sciences and Engineering, Xi’an Shiyou University, Xi’an 710065, China)
- Rongjun Zhang
(School of Petroleum Engineering, Xi‘an Shiyou University, Xi’an 710065, China
Xi’an Key Laboratory of Tight Oil (Shale Oil) Development, Xi’an Shiyou University, Xi’an 710065, China)
Abstract
In order to improve the effect of injection–production coupling development to improve crude oil recovery in complex fault-block reservoirs, we carried out a physical simulation experiment based on a sandpack model of transforming water-driven development into injection–production coupling development and quantitatively evaluated the influence of rounds of injection pressure coupling on the crude oil mobilization in reservoirs with different permeability levels and on oil recovery. Meanwhile, the characteristics of residual oil were studied via a numerical simulation method. The mechanism of increased oil production via injection–production coupling development was revealed by analyzing the water and oil contents, formation pressure, and streamline fields through the establishment of mechanism models. The results of the physical experiment show that injection–production coupling can improve the recovery effect of medium- and low-permeability reservoirs by 55.66%. With an increase in the injection pressure, the oil recovery percentage of the low-permeability sandpack model at 20 MPa is 100%, and this study finds that injection–production coupling is the main way to develop the recoverable oil in a low-permeability reservoir. The numerical simulation results show that among the four remaining oil distribution types (interwell-enriched, low-permeability zone-enriched, well network imperfection, and mismatch between injection and production), the interwell-enriched type of the remaining oil reserves accounts for the highest proportion (48.52%). The simulation results of the mechanism model show that water-driven development easily leads to streamline solidification, resulting in ineffective circulation of the injected water. Compared with conventional water-driven development, the pressure propagation range is significantly increased in injection–production coupling development. The reservoir streamline distribution is more continuous and uniform, and the flooding wave is wider in volume and range. This research provides a theoretical basis for the injection–production coupling technology policy in complex fault-block reservoirs.
Suggested Citation
Zhe Zhang & Hongjun Gan & Chao Zhang & Shengbin Jia & Xianzheng Yu & Kejian Zhang & Xinyu Zhong & Xiaolei Zheng & Tao Shen & Le Qu & Rongjun Zhang, 2024.
"Experimental Study on Improving Oil Recovery Mechanism of Injection–Production Coupling in Complex Fault-Block Reservoirs,"
Energies, MDPI, vol. 17(6), pages 1-19, March.
Handle:
RePEc:gam:jeners:v:17:y:2024:i:6:p:1505-:d:1361424
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