时宇,副教授
shiyuywy@126.com
教育经历:(可与"工作经历"合并)
2018.12-至今 44118太阳成城集团 副教授
2018.1-2018.11 阿尔伯塔大学 博士后
2013.1-2017.12 里贾纳大学,博士研究生;副研究员
2009.1-2012.12 中国石油勘探开发研究院,(高级)油藏工程师
2006.2-2008.12 中国科学院渗流流体力学研究所,博士研究生
1998.9-2005.7 44118太阳成城集团,本科;硕士研究生
研究方向:
油气相态、油气渗流机理、数值模拟、储层评价
代表性论著:(可选)
Shi,Y., Ding, Y., Feng, Q., and Yang, D. Improvement of Displacement Efficiency in Heavy Oil Reservoirs with Enzyme, Journal of Energy Resources Technology, (accepted), 2020
Shi, Y., and Babadagli, T. Simultaneous Occurrence of Miscible and Immiscible Displacement Processes During Solvent Displacement of Heavy-Oil: A Parametric Analysis Using Micro-Scale Experiments, SPE Journal, 2019.
Shi, Y and Yang, D. Quantification of Gas Exsolution and Mass Transfer of Foamy Oil in Bulk Phase under Solution Gas Drive Conditions, Paper SPE 190088-MS, presented at Western Regional Meeting, Garden Grove, CA, USA, April 22-27, 2018.
Shi, Y., Zheng, S., and Yang, D. Determination of Individual Diffusion Coefficients of Solvents-CO2-Heavy Oil Systems with Consideration of Natural Convection Induced by Swelling Effect. International Journal of Heat and Mass Transfer, 107, 572–585, 2017.
Shi, Y. and Yang, D. Experimental and Theoretical Quantification of Non-Equilibrium Phase Behaviour and Physical Properties of Foamy Oil under Reservoir Conditions, Journal of Energy Resources Technology, 139 (6), 062902-1–062902-11, 2017. IF 2.759
Shi, Y. and Yang, D. Quantification of A Single Gas Bubble Growth in Solvent(s)-CO2-Heavy Oil Systems with Consideration of Multicomponent Diffusion under Non-equilibrium Conditions. Journal of Energy Resources Technology, 139 (2), 022908-1–200908-11, 2016.
Shi, Y., Li, X., and Yang, D. Non-Equilibrium Phase Behaviour of Alkane Solvent(s)-CO2-Heavy Oil Systems under Reservoir Conditions, Industrial & Engineering Chemistry Research, 55 (10), 2860–2871, 2016.
Zhao, Z., Shi, Y., Yang, D. Quantification of gas exsolution of alkane solvents-CO2 mixture in heavy oil with consideration of individual interfacial resistance under nonequilibrium conditions, Journal of Petroleum Science and Engineering, 2019,
Dong, X., Shi, Y., and Yang, D. Quantification of Mutual Mass Transfer of CO2/N2-Light Oil Systems by Dynamic Volume Analysis, Industrial & Engineering Chemistry Research, 57 (48), 16495–16507, 2018. IF 3.375
学术兼职与荣誉称号:
SPE会员