Petroleum and Natural Gas Engineering(Oil and Gas Field Development Engineering)

Linsong Cheng

Personal Profile

College of Petroleum Engineering

Ph.D

Professor

Oil and Gas Field Development Engineering

lscheng@cup.edu.cn

Research Areas

Theory and application of oil and gas seepage

Oil and gas field development theory and system engineering

Research Projects

[1] National Natural Science Foundation of China - Petrochemical Joint Fund - Key Support Project, Key Science of Seepage Law and Efficient Development of Ultra-low Permeability Reservoir,
Project Leader

[2] National Natural Science Foundation of China-Surface Project, Research on dynamic characteristics and seepage law of oil-water-rock interface in ultra-low permeability/tight reservoirs,
project leader

[3] National Oil and Gas Major Project, Ordos Basin Tight Oil Development Demonstration Project, sub-project
leader

[4] National oil and gas major project, offshore heavy oil efficient development of new technology, sub-project leader


[5] Oilfield enterprise commissioned project, Enping 15-1 oilfield key development technology research,
project leader

[6] Oilfield enterprise commissioned project, Panyu 4-2 oilfield marine strong water flooding heavy oil reservoir enhanced oil recovery technology research,
project leader

[7] Oilfield enterprise commissioned project, ultra-low permeability reservoir horizontal well development law and stable production countermeasures research, project leader

Publications

[1] Production Capacity Evaluation of Complex Structural Wells in Different Types of Reservoirs, University of Petroleum Press, 2007, Editor-in-Chief.


[2] Resource Environment and Seepage Mechanics, China Science and Technology Press, 2005, editor-in-chief.


[3] Seepage Mechanics, Petroleum Industry Press, 2011, editor-in-chief.


[4] Advanced Seepage Mechanics, Petroleum Industry Press, 2011, ed.


[5] Assessment of energy efficiency and solvent retention inside steam chamber of steam-and solvent-assisted gravity drainage process. Applied Energy, 2018


[6] Environmental and economic benefits of Solvent-Assisted Steam-Gravity Drainage for bitumen through horizontal well: A comprehensive modeling analysis. Energy, 2018


[7] Performance of Solvent-Assisted Thermal Drainage process and its relationship to injection parameters: A comprehensive modeling. Fuel, 2018


[8] A novel Green element method based on two sets of nodes. Engineering Analysis with Boundary Elements, 2018


[9] A Laplace-Domain Hybrid Model for Representing Flow Behavior of Multifractured Horizontal Wells Communicating Through Secondary Fractures in Unconventional Reservoirs. SPE Journal, 2017