Petroleum and Natural Gas Engineering(Offshore Oil and Gas Engineering)

Zhihui Ye

Personal Profile

College of Safety and Ocean Engineering

Ph.D

Associate Professor

Offshore Oil and Gas Engineering

zhihui.ye@cup.edu.cn

Research Areas

Marine geotechnical engineering, offshore oil and gas field development, unconventional natural gas development

Research Projects

[1] China University of Petroleum (Beijing) Introduced Talent Scientific Research Startup Fund Project, Experimental Research on Erosion Characteristics of Clay Soil, Person in Charge


[2] China University of Petroleum (Beijing) All-English Undergraduate "Offshore Oil and Gas Exploitation Engineering" course construction project, responsible person


[3] Geological Modalities and Guided Drilling Knowledge Base, Sub-project of Strategic Pilot Science and Technology Special Project (Category A) of the Chinese Academy of Sciences, participants

Publications

[1] Ye, Z., Chen, D., Pan, Z., Zhang, G., Xia, Y., Ding, X. 2016. An improved Langmuir model for evaluating methane adsorption capacity in shale under various pressures and temperatures. Journal of Natural Gas Science and Engineering, 31, 658-680. (SCI)


[2] Ye Z., Chen D.*, Pan Z., 2015. A unified method to evaluate shale gas flow behaviours in different flow regions. Journal of Natural Gas Science and Engineering 26, 205-215. (SCI)


[3] Ye Z., Chen D.*, Wang J.G., 2014. Evaluation of the non-Darcy effect in coalbed methane production. Fuel 121, 1-10. (SCI)


[4] Chen D., Pan Z.*, Ye Z., 2015. Dependence of gas shale fracture permeability on effective stress and reservoir pressure: Model match and insights. Fuel 139, 383-392. (SCI)


[5] Chen D.*, Pan Z., Ye Z., Hou B., Wang D., Yuan L. A generalized permeability and effective stress relationship for porous and fractured reservoir rocks. China Shale Gas, Wuhan, China, 6-8 September 2015.


[6] Ye Z., Chen D*, Pan Z, Zhang G., Xia Y., Ding X. An improved binary Langmuir model for evaluating gas adsorption capacity in shale under various pressures and temperatures. China Shale Gas, Wuhan, China, 6-8 September 2015.


[7] Chen, D., Pan, Z., Ye, Z., Hou, B., Wang, D., Yuan, L. 2016. A unified permeability and effective stress relationship for porous and fractured reservoir rocks. Journal of Natural Gas Science and Engineering, 29, 401-412. (SCI)


[8] Hou, B., Zheng, X., Chen, M., Ye, Z., Chen, D. 2016. Parameter simulation and optimization in channel fracturing. Journal of Natural Gas Science and Engineering, 35, 122-130. (SCI)


[9] Zheng, X., Chen, M., Hou, B., Ye, Z., Wang, W., Yin, C., Chen, X. 2016. Effect of proppant distribution pattern on fracture conductivity and permeability in channel fracturing. Journal of Petroleum Science and Engineering. (SCI)