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

Fei Wang

Personal Profile

College of Petroleum Engineering

Ph.D

Associate Professor & Master Supervisor

Oil and Gas Field Development Engineering

wangfei@cup.edu.cn

Research Areas

Unconventional natural gas development, oil and gas well production increase transformation and evaluation

Research Projects

[1] National Natural Science Foundation of China, Research on Retention Mechanism and Simulation of Fracturing Fluid in Shale Gas Reservoirs (51504266), 2016-2018, Principal Investigator
[2] Beijing Natural Science Foundation Project, Transient Pressure Inversion and Analysis of Horizontal Wells of Shale Gas Fracturing (3154038), 2015-2016, Principal Investigator
[3] China University of Petroleum (Beijing) Outstanding Teacher Research Fund Project, Research on the Transport and Retention Mechanism and Influence Law of Fracturing Fluid in Tight Gas Reservoirs (2462015YQ0212), 2015-2017, Principal Investigator
[4] China University of Petroleum (Beijing) Introduction of Talents Scientific Research Startup Fund Project, Study on The Characteristics of Pressure Instability in Tight Gas Reservoirs (YJRC-2011-02), 2011-2014, Principal Investigator
[5] Horizontal Scientific Research Project of Daqing Oilfield Co., Ltd., Study on Volumetric Fracturing Seepage Characteristics of Deep Compact Sand Conglomerate and Medium Matrix Volcanic Rock Gas Reservoirs, 2018-2019, Second Principal Investigator
[6] Sinopec Petroleum Exploration and Development Research Institute Open Fund Project, Research on the Mechanism of Post-Pressure Return Discharge of Shale Gas Wells and the Optimization of Return System, 2016-2017, Second Principal Investigator
[7] Horizontal Scientific Research Project of PetroChina Changqing Oilfield Company, Fine Evaluation of Overall Pressure Recovery and Edge Exploration Test of Shaanxi 224 Gas Storage Reservoir, 2012-2013, Second Principal Investigator

Publications

[1] Wang Fei, Lin Hun, Pan Ziqing, Lyu Xinrun, Li Baoman, Zhang Shicheng. Fracturing-fluid Migration Front Progression in Fractured Gas Shale: Experiment and Numerical Analyses. Hydraulic Fracturing Journal, 2018, 5(1):95-102.
[2] Wang Fei, Pan Ziqing, Simulation of Coupled Hydro-Mechnical-Chemical Phenomena in Hydraulically Fractured Gas Shale during Fracturing-fluid Flowback. Journal of Petroleum Science and Engineering. 2018(163):16-26.
[3] Wang Fei, Pan Ziqing, Zhang Shicheng. Coupled Thermo-Hydro-Chemical Modeling of Fracturing-fluid Leakoff in Hydraulically Fractured Shale Gas Reservoirs. Journal of Petroleum Science and Engineering. 2018(161):17-28.
[4]Wang Fei, Li Baoman, Zhang Yichi, Zhang Shicheng. Coupled Thermo-Hydro-Mechanical- Chemical Modeling of Water Leak-off Process during Hydraulic Fracturing in Shale Gas Reservoirs. Energies, 2017, 10, 1960.
[5]Wang Fei, Pan Ziqing, Zhang Shicheng. Modeling water leak-off behavior in hydraulically fractured gas shale under multi-mechanism dominated conditions, Transport in Porous Media, 2017,118(6):177-200.
[6]Wang Fei, Pan Ziqing, Zhang Shicheng. Impact of chemical osmosis on water leakoff and flowback behavior from hydraulically fractured gas shale, Journal of Petroleum Science and Engineering, 2017,151(3):264-274.
[7]Wang Fei, Pan Ziqing, Zhang Shicheng. Modeling fracturing-fluid flowback behavior in hydraulically fractured shale gas under chemical potential dominated conditions,Applied Geochemistry, 2016, 74(11):194-202.
[8]Wang Fei, Pan Ziqing, Pressure-buildup analysis method for a post-treatment evaluation of hydraulically fractured tight gas wells, Journal of Natural Gas Science and Engineering, 2016, 35(9):753-760.
[9]Wang Fei, Pan Ziqing. Numerical simulation of chemical potential dominated fracturing-fluid flowback in hydraulically fractured shale gas reservoirs, Petroleum Exploration and Development, 2016,43(6):1060-1066.
[10]Wang Fei, Pan Ziqing, Lin Hun, Zhang Shicheng. A chemical potential dominated model for fracturing-fluid flowback simulation in hydraulically fractured gas shale, SPE Annual Technical Conference and Exhibition, SPE181418, 2016.