出生年月：1994.07

学历：工学博士

职称：特聘副教授

研究方向：超临界二氧化碳管道输送

邮箱：joyyu94@163.com

办公室：工科D

教育背景 

2018.01-2021.06 卡尔加里大学 化学与石油工程学院 石油工程 博士 

2015.09-2016.09 帝国理工学院 地球科学与工程学院 石油工程 硕士

2015.01-2015.06 挪威科技大学 化学工程学院 化学工程 本科毕业设计 

2011.09-2015.06 中国石油大学（华东）储运与建筑工程学院 油气储运工程

                                 中国石油大学（华东）文学院 英语专业 学士

科研经历 

2018.01 至今 卡尔加里大学 导师：Dr. Zhangxin (John) Chen 陈掌星 

课题：甲烷和二氧化碳在纳米尺度下的流动和吸附（运用分子动力学软件 LAMMPS 以及蒙特卡洛模拟， 探究气体在纳米尺度下的流动和吸附的机理，主要应用于页岩气的吸附、二氧化碳的捕集和埋存） 

2017.06-2017.09 考文垂大学 导师：Dr. Seyed M. Shariatipour 

课题 ：对加拿大阿尔伯塔省布鲁克斯控制检测站二氧化碳埋存在浅层盐水层的过程进行数值模拟（运 用 ECLIPSE 模拟二氧化碳在浅层盐水层的迁移，探究二氧化碳埋存项目在该地区盐水层实施的可行性） 

2016.04-2016.09 帝国理工学院 导师：Dr. Martin Blunt, Dr. Samuel Krevor 

课题：对英国北部北海 Captain 砂岩的二氧化碳埋存项目中盐水的生产进行优化（运用油藏模拟软件 ECLIPSE、PETREL， 模拟二氧化碳在该地区的埋存，通过优化盐水的生产来控制地层压力，进而保证 项目的安全性和经济利润的最大化） 

2015.01-2015.06 挪威科技大学 导师：Dr. Johan Sjoblom

课题：探究石油中沥青质对其乳状液稳定性的影响（通过实验方法，探究石油中沥青质在被酯化前后 对界面特性和其乳状液稳定性的影响）

主要论文  

[1] Yu, X., Li, J., Chen, Z., Wu, K., Zhang, L., Yang, S., Hui, G. and Yang, M., 2020. Determination  of CH4, C2H6 and CO2 adsorption in shale kerogens coupling sorption-induced swelling. Chemical  Engineering Journal, p.127690. 

[2] Yu, X., Li, J., Chen, Z., Wu, K., Zhang, L., 2020. Effects of an adsorbent accessible volume on  methane adsorption on shale. Computer Methods in applied mechanics and engineering ，370,  p.113222.

[3] Yu, X., Li, J., Chen, Z., Wu, K., Zhang, L. and Yang, S., 2020. Effects of helium adsorption in  carbon nanopores on apparent void volumes and excess methane adsorption isotherms. Fuel, 270,  p.117499.

[4] Yu, X., Li, J., Chen, Z., Wu, K., Zhang, L., Hui, G., Yang M., 2020. Molecular dynamics  computations of bring-CO2/CH4-shale contact angles: implications for CO2 sequestration and enhance  gas recovery. Fuel, 280, p.118590.

[5] Yu, X., Ahmadinia, M., Shariatipour, S.M., Lawton, D., Osadetz, K. and Saeedfar, A., 2019. Impact  of Reservoir Permeability, Permeability Anisotropy and Designed Injection Rate on CO2 Gas Behavior  in the Shallow Saline Aquifer at the CaMI Field Research Station, Brooks, Alberta. Natural Resources  Research, pp.1-18. 

[6] Zhang, L., Yu, X., Chen, Z., Li, J., Hui, G., Yang, M. and Yu, R., 2020. Capillary dynamics of  confined water in nanopores: The impact of precursor films. Chemical Engineering Journal, p.128113. 

[7] Zhang, L., Wu, K., Chen, Z., Li, J., Yu, X. and Yang, S., 2020. Molecular-scale friction at a water– graphene interface and its relationship with slip behavior. Physics of Fluids, 32(9), p.092001.

[8] Zhang, L., Wu, K., Chen, Z., Li, J., Yu, X., Yang, S., Hui, G. and Yang, M., 2020. Quasi-Continuum  Water Flow under Nanoconfined Conditions: Coupling the Effective Viscosity and the Slip  Length. Industrial & Engineering Chemistry Research, 59(46), pp.20504-20514.

[9] Zhang, L., Wu, K., Chen, Z., Li, J., Yu, X., Hui, G. and Yang, M., 2020. The increased viscosity  effect for fracturing fluid imbibition in shale. Chemical Engineering Science, p.116352.

[10] Hui, G., Chen, S., Gu, F., Pang, Y., Yu, X. and Zhang, L., Insights on controlling factors of  hydraulically induced seismicity in the Duvernay East Shale Basin. Geochemistry, Geophysics,  Geosystems, p.e2020GC009563.

[11] Li, J., Chen, Z.J., Lei, Z., Gao, Y., Yang, S., Wu, W., Zhang, L., Yu, X., Feng, D., Bi, J. and Wu,  K., 2020, October. Modelling the Apparent Viscosity of Water Confined in Nanoporous Shale: Effect  of the Fluid/Pore-Wall Interaction. In SPE Annual Technical Conference and Exhibition. Society of  Petroleum Engineers. 

[12] Yang, S., Zhang, L., Yu, X. and Chen, Z., 2019, October. Geomechanical Effects on IOR in the  Bakken Formation. In Unconventional Resources Technology Conference, Denver, Colorado, 22-24  July 2019 (pp. 225-232). Unconventional Resources Technology Conference (URTeC); Society of  Exploration Geophysicists.