The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs
The imbibition of water with surfactants, including spontaneous imbibition and forced imbibition, is of great significance for enhanced oil recovery (EOR) in tight sandstone reservoirs. Up to now, the migration behaviors of the water and the oil in pores of different sizes, as well as the mechanisms...
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sg-ntu-dr.10356-1619982022-09-28T07:26:21Z The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs Cao, Bao Lu, Xiangguo Xie, Kun Ding, Hongna Xiao, Zhongmin Cao, Weijia Zhou, Yanxia He, Xin Li, Yu Li, Hongru School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Spontaneous Imbibition Forced Imbibition The imbibition of water with surfactants, including spontaneous imbibition and forced imbibition, is of great significance for enhanced oil recovery (EOR) in tight sandstone reservoirs. Up to now, the migration behaviors of the water and the oil in pores of different sizes, as well as the mechanisms of both spontaneous imbibition and forced imbibition with different surfactants, have not been comprehensively addressed yet. This work first measured the oil-water interfacial tensions (IFTs) and the contact angles in oil-water-rock system with two types of surfactants, namely medium-IFT (0.1–10 mN/m) and low-IFT (0.001–0.1 mN/m) surfactants, at different concentrations to comprehend the functionalities of surfactants on oil recovery. Secondly, the pore size distributions of tight sandstones were determined by the high-pressure mercury intrusion (HPMI) and the nuclear magnetic resonance (NMR) technology to characterized the pores into three types (micropores, mesopores, and macropores) according to the pore sizes. Eventually, this work presented the oil recovery results in these three types of pores for spontaneous and forced imbibition using the two types of surfactants in water-wet tight core samples. Both spontaneous and forced imbibition results showed that the oil recoveries with surfactants were higher than those with brine, which was primarily attributed to the increased oil in the mesopores and the macropores. However, the addition of low-IFT surfactants apparently reduced the oil recovery in micropores, hence resulted in a lower oil recovery in comparison with the medium-IFT surfactants. It was also found that the oil in micropores contributed more than 50% of the oil recovery in the imbibition, except for the imbibition with low IFT, due to the high initial oil volume ratios in micropores; there could be a moderate IFT value (e.g., 0.1–1 mN/m) with the use of surfactants to obtain the highest oil recovery. Moreover, in comparison with the spontaneous imbibition, the forced imbibition could enhance the imbibition of water into the micropores but prevent the oil from being extracted from the mesopores and the macropores, which consequently led to a higher contribution of the micropores on oil recovery than that of the larger pores, especially the mesopores. This work was supported by National Major Science and Technology Projects of China (2016 ZX05058-003-010), National Postdoctoral Program for Innovative Talents (BX20190065), SPE Nico van Wingen Memorial Fellowship, National Natural Science Foundation of China (No. 51574086), Open Fund of Xi’an Key Laboratory of Tight Oil (Shale Oil) Development (XSTS-202001). 2022-09-28T07:26:21Z 2022-09-28T07:26:21Z 2022 Journal Article Cao, B., Lu, X., Xie, K., Ding, H., Xiao, Z., Cao, W., Zhou, Y., He, X., Li, Y. & Li, H. (2022). The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs. Journal of Petroleum Science and Engineering, 213, 110371-. https://dx.doi.org/10.1016/j.petrol.2022.110371 0920-4105 https://hdl.handle.net/10356/161998 10.1016/j.petrol.2022.110371 2-s2.0-85126824848 213 110371 en Journal of Petroleum Science and Engineering © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Mechanical engineering Spontaneous Imbibition Forced Imbibition |
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Engineering::Mechanical engineering Spontaneous Imbibition Forced Imbibition Cao, Bao Lu, Xiangguo Xie, Kun Ding, Hongna Xiao, Zhongmin Cao, Weijia Zhou, Yanxia He, Xin Li, Yu Li, Hongru The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs |
| description |
The imbibition of water with surfactants, including spontaneous imbibition and forced imbibition, is of great significance for enhanced oil recovery (EOR) in tight sandstone reservoirs. Up to now, the migration behaviors of the water and the oil in pores of different sizes, as well as the mechanisms of both spontaneous imbibition and forced imbibition with different surfactants, have not been comprehensively addressed yet. This work first measured the oil-water interfacial tensions (IFTs) and the contact angles in oil-water-rock system with two types of surfactants, namely medium-IFT (0.1–10 mN/m) and low-IFT (0.001–0.1 mN/m) surfactants, at different concentrations to comprehend the functionalities of surfactants on oil recovery. Secondly, the pore size distributions of tight sandstones were determined by the high-pressure mercury intrusion (HPMI) and the nuclear magnetic resonance (NMR) technology to characterized the pores into three types (micropores, mesopores, and macropores) according to the pore sizes. Eventually, this work presented the oil recovery results in these three types of pores for spontaneous and forced imbibition using the two types of surfactants in water-wet tight core samples. Both spontaneous and forced imbibition results showed that the oil recoveries with surfactants were higher than those with brine, which was primarily attributed to the increased oil in the mesopores and the macropores. However, the addition of low-IFT surfactants apparently reduced the oil recovery in micropores, hence resulted in a lower oil recovery in comparison with the medium-IFT surfactants. It was also found that the oil in micropores contributed more than 50% of the oil recovery in the imbibition, except for the imbibition with low IFT, due to the high initial oil volume ratios in micropores; there could be a moderate IFT value (e.g., 0.1–1 mN/m) with the use of surfactants to obtain the highest oil recovery. Moreover, in comparison with the spontaneous imbibition, the forced imbibition could enhance the imbibition of water into the micropores but prevent the oil from being extracted from the mesopores and the macropores, which consequently led to a higher contribution of the micropores on oil recovery than that of the larger pores, especially the mesopores. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Cao, Bao Lu, Xiangguo Xie, Kun Ding, Hongna Xiao, Zhongmin Cao, Weijia Zhou, Yanxia He, Xin Li, Yu Li, Hongru |
| format |
Article |
| author |
Cao, Bao Lu, Xiangguo Xie, Kun Ding, Hongna Xiao, Zhongmin Cao, Weijia Zhou, Yanxia He, Xin Li, Yu Li, Hongru |
| author_sort |
Cao, Bao |
| title |
The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs |
| title_short |
The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs |
| title_full |
The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs |
| title_fullStr |
The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs |
| title_full_unstemmed |
The pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs |
| title_sort |
pore-scale mechanisms of surfactant-assisted spontaneous and forced imbibition in water-wet tight oil reservoirs |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161998 |
| _version_ |
1745574641767809024 |