白世勋，男，汉族，中共党员，博士，中级职称，讲师

教育经历

2008-2012 中国石油大学（华东）本科

2012-2015 中国石油大学（华东）硕士

2015-2020 University of Wyoming 博士

2020-2022 University of Wyoming 博士后

工作经历

2022-至今 中国石油大学（北京）克拉玛依校区 讲师

研究方向

1.常规及非常规油藏提高采收率（宏观渗流及微观分子模拟）

2.烃类和H₂在纳米材料中的限域效应

发表论文

[1] Bai, S. and Piri, M., 2021, Hydrogen storage in nanoporous media: Molecular dynamics simulations of the confinement effects. International Journal of Hydrogen Energy.

[2] Bai, S., Kubelka, J. and Piri, M., 2021. Wettability alteration by Smart Water multi-ion exchange in carbonates: A molecular dynamics simulation study. Journal of Molecular Liquids, 332, p.115830.

[3] Bai, S., Kubelka, J. and Piri, M., 2021. Wettability Reversal on Dolomite Surfaces by Divalent Ions and Surfactants: An Experimental and Molecular Dynamics Simulation Study. Langmuir.

[4] Bai, S., Kubelka, J. and Piri, M., 2020. Relationship between molecular charge distribution and wettability reversal efficiency of cationic surfactants on calcite surfaces. Journal of Molecular Liquids, 318, p.114009.

[5] Bai, S., Kubelka, J. and Piri, M., 2020. A positively charged calcite surface model for molecular dynamics studies of wettability alteration. Journal of colloid and interface science, 569, pp.128-139.

[6] Bai, S., Kubelka, J. and Piri, M., 2020. Atomistic molecular dynamics simulations of surfactant-induced wettability alteration in crevices of calcite nanopores. Energy & Fuels, 34(3), pp.3135-3143.

[7] Julius, T., Bai, S., Kubelka, J. and Piri, M., "Surfactant-induced wettability reversal on oil-wet calcite surfaces: Experimentation and molecular dynamics simulations with scaled-charges." Journal of Colloid and Interface Science (2021).

[8] Kubelka, J., Bai, S. and Piri, M., 2021. Effects of Surfactant Charge and Molecular Structure on Wettability Alteration of Calcite: Insights from Molecular Dynamics Simulations. The Journal of Physical Chemistry B, 125(4), pp.1293-1305.

[9] Zhang, P., Bai, S., Chen, S., Li, D., Jia, Z. and Zhou, C., 2018. Preparation, solution characteristics and displacement performances of a novel acrylamide copolymer for enhanced oil recovery (EOR). Polymer Bulletin, 75(3), pp.1001-1011.

[10] Zhang, P., Bai, S., You, Q., Ji, W., Yu, H. and Li, D., 2017. Preparation and properties of novel pH‐sensitive core− shell microspheres for enhanced oil recovery. Polymer International, 66(9), pp.1312-1317.

[11] Zhang, P., Bai, S., Chen, S., Li, D., Jia, Z., Zhou, C., Feng, J. and Yu, L., 2016. Preparation of polyacrylamide microspheres with core–shell structure via surface-initiated atom transfer radical polymerization. RSC advances, 6(94), pp.91463-91467.

[12] Shi, S., Wang, Y., Bai, S., Ding, M. and Chen, W., 2017. Migration-plugging properties and plugging mechanism of microfoam. Journal of Dispersion Science and Technology, 38(11), pp.1656-1664.

[13] Shi, S., Wang, Y., Bai, S., Li, Z., Ding, M. and Chen, W., 2016. Pore-Scale Studies on the Stability of Microfoam and the Effect of Parameters on Its Bubble Size. Journal of Dispersion Science and Technology, 37(7), pp.1019-1026.

[14] Zhang, P., Wang, Y., Yang, Y., Chen, W. and Bai, S., 2015. Effective viscosity in porous media and applicable limitations for polymer flooding of an associative polymer. Oil & Gas Science and Technology–Revue d’IFP Energies nouvelles, 70(6), pp.931-939.

[15] He, H., Wang, Y., Zhang, J., Xu, X., Zhu, Y. and Bai, S., 2015. Comparison of gelation behavior and morphology of resorcinol–hexamethylenetetramine–HPAM gel in bulk and porous media. Transport in Porous Media, 109(2), pp.377-392.

[16] Zhang, P., Huang, W., Jia, Z., Zhou, C., Wang, Y., Li, D., Bai, S., He, H., Guo, M. and Yu, H., 2015. Synthesis and application of a pH-triggered microgel in reservoir mobility-control. International Journal of Oil, Gas and Coal Technology, 9(2), pp.180-191.

国际会议

[1] Bai, S., Kubelka, J. and Piri, M., 2021, December. Toward the Rational Design of Chemical Formulations for EOR from Carbonates: Molecular–Level Understanding of Carbonate Wettability and its Reversal by Surfactants and Ions. In Abu Dhabi International Petroleum Exhibition & Conference. OnePetro.

[2] Chaisoontornyotin, W., Mohamed, A.I., Bai, S., Afari, S.A., Mirchi, V., III*, A.R., Pearl, M. and Piri, M., 2019, October. The Impact of Fracture Surface Area to Rock Volume Ratio on Spontaneous Imbibition in Tight Rocks. In Unconventional Resources Technology Conference, Denver, Colorado, 22-24 July 2019 (pp. 4547-4553). Unconventional Resources Technology Conference (URTeC); Society of Exploration Geophysicists.

其他成果（专利）

1. Methods and apparatus for enhanced oil recovery，专利号WO/2022/104248，19.05.2022

联系方式

E-mail: baisxun@cupk.edu.cn

办公电话：6633534