Department of Field Development Engineering
Dr. Cheng Linsong
Education
PhD, Oil-Gas Field Development Engineering, China University of Petroleum, Beijing
M.S., Oil-Gas Field Development Engineering, China University of Petroleum, Beijing
Education
PhD, Oil-Gas Field Development Engineering, China University of Petroleum, Beijing
M.S., Oil-Gas Field Development Engineering, China University of Petroleum, Beijing
B.S., Petroleum Engineering, China University of Petroleum, Huadong
Research (Areas of Research Focus)
Flow theory of low-permeability/tight oil reservoirs
The mechanism of heavy oil development (CSS, SAGD)
Flow dynamics of complex wells and completion
The development strategy of high water cut oil reservoirs
Teaching
Flow dynamics in porous media; Advanced flow dynamics in porous media;
Previous Teaching Experience (Previous Relevant Working Experience)
1988-Present | Teacher of China University of Petroleum, Beijing
Other Functions
1994-1995 | Engineer of SSI(Scientific Software Institution), USA
Professional Affiliations
Members of the National Society of Professional Committee of seepage mechanics
"Lithological reservoir" magazine editorial
CNPC Key Laboratory of reservoir physics and fluid mechanics Academic Committee
Contact
Email: lscheng@cup.edu.cn TEL: 010-89734592 Fax: 010-89734592
Address of Office: Office 713, Zhongyou Building, China University of Petroleum
Publications
[1] Productivity Evaluation of Different Types of Structure Well in Complex Reservoir, Petroleum University Press, 2007.
[2] Resources, Environment and Subsurface Flow Mechanics, China science and Technology Press, 2005.
[3] Flow dynamics in porous media, Petroleum Industry Press, 2011.
[4] Advanced flow dynamics in porous media, Petroleum Industry Press, 2011.
[5] Digital Experiment Steam and Incondensable Gas-assisted Gravity Push on Heavy Oil. International Forum on Porous Flow and Applications, 2009 .
[6] Constitutive Model of Viscous-Elastic Polymer Solution in Porous Media. Petroleum Science and Technology, 2010.
[7] Research on Improved Recovery Method by Composed Synergistic Action of Well Pattern and Tertiary Recovery. International Symposium on Multi-field Coupling Theory of Rock and Soil Media and Its Applications, 2010.
[8] The threshold pressure gradient in ultra-low permeability reservoirs. Petroleum Science and Technology, 2008.
[9] Fractured reservoir storage capacity ratio and elasticity coefficient variation channeling research. Engineering Mechanics, 2011.
[10] Simulation of ground stress field and fracture anticipation with effect of pore pressure. Theoretical and Applied Fracture Mechanics, 2011.
[11] Low velocity non-linear flow in ultra-low permeability reservoir. Journal of Petroleum Science and Engineering, 2011.
[12] A Simulation of Casing Damage Considering THM Coupling. Petroleum Science and Technology, 2011.
[13] Characteristics of Productivity Curves in Abnormal High-pressure Reservoirs. Petroleum Science and Technology, 2011.
[14] A new computation model of fractured horizontal well coupling with reservoir. International Journal for Numerical Methods in Fluids, 2011.
[15] A model for coupling reservoir inflow and wellbore flow in fishbone wells. Petroleum Science, 2012.
[16] The characteristics of relative permeability curves in naturally fractured carbonate reservoirs. Journal of Canadian Petroleum Technology, 2012.
[17] A viscoelastic polymer flooding model considering the effects of shear rate on viscosity and permeability. Petroleum Science and Technology, 2013.
[18] Study on water breakthrough law of horizontal wells in the bottom water drive reservoir. International Journal of Applied Environmental Sciences.2013.
[19] Numerical simulation study of gas-cap reservoir barrier water injection fluid interface migration laws. Metalurgia International.2013
[20] Evaluation of Performance for Volume Fractured Horizontal Well in Tight Oil Reservoirs. International Journal of Applied Environmental Sciences.2013.
[21] Application and Optimization of a Fractured Horizontal Well in an Ultralow Permeability Reservoir. Petroleum Science and Technology.2013.
[22] Fuzzy Comprehensive Evaluation Model for Estimating Casing Damage in Heavy Oil Reservoir. Petroleum Science and Technology.2013.
