SHI Yu
Associated Professor of geo-engineering
Research Interests:
My research focuses on Geothermal exploration and development, Intelligent prediction of geothermal productivity, Oil and gas drilling engineering and Heat damage prevention in high-temperature tunnel. The main research methods include laboratory experiments, numerical simulation conducted in COMSOL and ANSYS, and machine learning.
Connect:
SWJTU XIPU Campus Building 4 Room 4223B
e-mail: shiyu-cupb@qq.com, shiyu@swjtu.edu.cn
Education:
Bachelor: petroleum engineering, China University of Petroleum (Beijing), China, 2011.09-2015.06
Visiting scholar: petroleum engineering, The University of Utah, USA, 2018.09-2019.09
Ph.D.: oil & gas well engineering, China University of Petroleum (Beijing), China, 2015.09-2020.06
Experience:
Associated Professor in Department of Geological Engineering, Southwest Jiaotong University, Since 2020.07.
Experience:
Reviewers for Applied Energy, Energy, Applied Thermal Engineering; SPE member; GRC member
Representative publications (*= corresponding author):
Y.Shi, X.Z. Song*and G.F. Song. Productivity prediction of a multilateral-well geothermal system based on a long short-term memory and multi-layer perceptron combinational neural network [J].Applied Energy, 2020 (282): 116046.
Y. Shi, X.Z. Song*, G.S. Wang, et al. Study on wellbore fluid flow and heat transfer of a multilateral-well CO2enhanced geothermal system [J].Applied Energy249 (2019): 14-27.
Y.Shi, X.Z. Song*, at al. Study on heat extraction
performance of a multilateral-well EGS considering complex hydraulic and natural fractures [J].Renewable Energy141 (2019): 950-963.
Y. Shi, X.Z. Song*, Z.H. Shen, et al. Numerical investigation on heat extraction performance of a CO2enhanced geothermal system with multilateral wells [J].Energy163 (2018): 38-51.
Y. Shi, X.Z. Song*, J.C. Li, et al. Numerical investigation on heat extraction performance of a multilateral-well EGS with a discrete fracture network [J].Fuel244 (2019): 207-226.
Y. Shi, X.Z. Song*, G.S. Li, et al. Numerical investigation on heat extraction performance of a downhole heat exchanger geothermal system [J].Applied Thermal Engineering134 (2018): 513-526.
Y. Shi, X.Z. Song*, J.C. Li, et al. Analysis for effects of complex fracture network geometries on heat extraction efficiency of a multilateral-well enhanced geothermal system [J].Applied Thermal Engineering159 (2019): 113828.
Y. Shi, X.Z. Song*, G.S. Li, et al. Numerical investigation on the reservoir heat production capacity of a downhole heat exchanger geothermal system [J].Geothermics72 (2018): 163-169.
Y. Shi,X.Z. Song*, and Y. Feng. Effects of lateral-well geometries on multilateral-well EGS performance based on a thermal-hydraulic-mechanical coupling model [J].Geothermics, 89 (2020): 101939.
X.Z. Song*,Y. Shi, G.S. Li, et al. Numerical simulation of heat extraction performance in enhanced geothermal system with multilateral wells [J].Applied energy218 (2018): 325-337.
X.Z. Song*,Y. Shi, G.S. Li, et al. Numerical analysis of the heat production performance of a closed loop geothermal system [J].Renewable energy120 (2018): 365-378.
X.Z. Song*,Y. Shi, G.S. Li, et al. Heat extraction performance simulation for various configurations of a downhole heat exchanger geothermal system [J].Energy141 (2017): 1489-1503.
