ZHU Chaofan

SOURCE :     TIME:2024-10-10

NameZHU Chaofan


TitleAssociate Professor

Emailchaofan_zhu@jlu.edu.cn

Research Interests

1. Shale oil green and efficient development   technology

2. In situ conversion technique


Education

2014-2020, China University of Petroleum (East   China), Bachelor's Degree in Petroleum Engineering and Engineering Management

2010-2014, China University of Petroleum (East   China), PhD in Oil and Gas Field Development Engineering


Professional Positions

2022-now, Associate Professor, College of   Construction Engineering, Jilin University

2020-2022, Postdoctoral, College of Construction   Engineering, Jilin University


Publications

1.    Chaofan   Zhu, Tianle Zhang, Junfan PanYanwei Li, J.J. Sheng, Wei Guo*Convective heat transfer process in fractured   tight shale formations based on a modified double-medium model: Theoretical   model development and numerical validation[J]. International Journal of Heat   and Mass Transfer, 2024, 235, 126201. IF5.000

2.    Wei   Guo, Junfan Pan, Xu Zhang, Sunhua Deng, Chaofan Zhu*. Experimental and   mechanistic study on isothermal oxidative pyrolysis of oil shale[J]. Journal   of Analytical and Applied Pyrolysis, 2023, 175, 106215. IF6.000

3.    Guo   Wei, Yang Qinchuan, Deng Sunhua, Li Qiang, Sun Youhong, Su Jianzheng, Zhu   Chaofan*. Experimental study of the autothermic pyrolysis in-situ conversion   process (ATS) for oil shale recovery[J]. Energy, 2022, 258: 124878. IF=8.857

4.    Chaofan   Zhu, Youhong Sun, Qiang Li, Sunhua Deng, Yuan Wang, Guodong Cui, Wei Guo*.   Reaction mechanism and reservoir simulation study of the high-temperature   nitrogen injection in-situ oil shale process: a case study in Songliao Basin,   China[J]. Fuel, 2022. IF=8.035

5.    Guo   Wei, Li Qiang, Deng Sunhua, Wang Yuan, Zhu Chaofan*. Mechanism and reservoir   simulation study of the autothermic pyrolysis in-situ conversion process for   oil shale recovery[J]. Petroleum Science, 2022. IF=4.757

6.    Chaofan   Zhu, Wei Guo*, Yajun Li, Houjian Gong, J.J. Sheng, Mingzhe Dong. Effect of   occurrence states of fluid and pore structures on shale oil movability[J].   Fuel, 2021, 288: 119847. IF=8.035

7.    Chaofan   Zhu, Wei Guo, Youping Wang, Yajun Li, Houjian Gong, Long Xu, Mingzhe Dong*.   Experimental study of enhanced oil recovery by CO2huff-n-puff in shales and   tight sandstones with fractures[J]. Petroleum Science, 2021, 18(3): 852-869.   IF=4.757

8.    Chaofan   Zhu, J. J. Sheng, Amin Ettehadtavakkol, Yajun Li, Houjian Gong, Zijin Li,   Mingzhe Dong*. Numerical and Experimental Study of Enhanced Shale-Oil   Recovery by CO2 Miscible Displacement with NMR; Energy & Fuels. 2020,   34(2):1524-1536. IF=4.654

9.    Chaofan   Zhu, James J. Sheng, Amin Ettehadtavakkol, Yajun Li, Mingzhe Dong*. Numerical   and experimental study of oil transfer in laminated shale[J]. International   Journal of Coal Geology, 2020, 217: 103365. IF=6.300

10.  Chaofan   Zhu, Xuejie Qin, Yajun Li, Houjian Gong*, Zijin Li, Long Xu, Mingzhe Dong*.   Adsorption and dissolution behaviors of CO2 and n-alkane mixtures in shale:   effects of the alkane type, shale properties and temperature[J]. Fuel, 2019,   253: 1361-1370. IF=8.035

11.  Chaofan   Zhu, Yajun Li*, Qingmin Zhao, Houjian Gong, Qian Sang, Hongjun Zou, Mingzhe   Dong*. Experimental study and simulation of CO2transfer processes in shale   oil reservoir[J]. International Journal of Coal Geology, 2018, 191: 24-36.   IF=6.300

12.  Chaofan   Zhu, Mingzhe Dong*, Houjian Gong. Competitive adsorption behaviors of carbon   dioxide and n-dodecane mixtures in 13X molecular sieve; IOP Conference   Series: Earth and Environmental Science; 2018. 108(2):022079. EI

13.  Chaofan   Zhu, Yajun Li, Houjian Gong*, Qian Sang, Zijin Li, Mingzhe Dong*. Adsorption   and dissolution behaviors of carbon dioxide and n-dodecane mixtures in shale;   Energy & Fuels; 2017. 32(2):1374-1386. IF=4.654

14.  Zhu   Chaofan, Li Yajun, Sang Qian, Gong Houjian, Li Yanchao, and Dong Mingzhe*,   Research on Time-Varying Shape Factor of Fractured Tight Sandstone Gas   Reservoirs[J]. Natural Gas Geoscience, 2017. 28(05):792-800.


Projects

1.    National   Natural Science Foundation of China Youth Project, Grant No. 4210020395, Zhu   Chaofan, Evolution of Two-Phase Flow Characteristics during In-Situ   Exploitation with Autogenous Heat in Oil Shale and Its Impact on Heating   Efficiency, January 2022 - January 2024, RMB 300,000, Ongoing, Principal   Investigator.

2.    Sinopec   Exploration and Production Research Institute Project, Zhu Chaofan, Dynamic   Regulation Technology for In-Situ Conversion and Cracking Temperature of Oil   Shale with Autogenous Heat, May 2024 - December 2025, RMB 430,000, Ongoing,   Principal Investigator.

3.    Jilin   Provincial Department of Education Science and Technology Research Planning   Project, Research on the Mechanism of Enhancing Shale Oil Reservoir Recovery   by CO2 Flooding, January 2023 - December 2024, RMB 25,000, Ongoing, Principal   Investigator.

4.    First-Class   Funding for General Postdoctoral Research Projects, Grant No. 2021M700053,   Zhu Chaofan, Shrinkage Mechanism of Kerogen under CO2 Displacement and Its   Impact on Shale Oil Flow Characteristics, January 2022 - January 2023, RMB   120,000, Ongoing, Project Completed


Patents

1.    Control   System and Process Method for In-Situ Extraction Reaction Zone of Oil Shale,   Invention, ZL202210206289.7, 6/6

2.    In-Situ   Conversion and Development Method for Low- to Medium-Maturity Organic-Rich   Shale Using Autogenous Heat, Invention, ZL202111291684.1, 3/7

3.    Apparatus   and Method for Testing Oil Recovery from In-Situ Conversion of Oil Shale   Using Autogenous Heat, Invention, ZL202111291683.7, 2/6

4.    Method   for Evaluating Recovery Rates of Organic and Inorganic Matter in Shale,   Invention, ZL201910484038.3, 3/10

5.    Apparatus   and Method for Measuring Diffusion Coefficient During CO2 Huff and Puff   Process in Shale Oil, Invention, ZL201810053226.6, 2/10

6.    Apparatus   and Method for Evaluating Recovery Rate of Shale Oil During CO2 Huff and Puff   Process, Invention, ZL201810053213.9, 2/10

7.    Method   for Improving Recovery Rate of Shale Oil During Huff and Puff Process Using   CO2/Cosolvent System, Invention, ZL201810053938.8, 3/10

8.    Apparatus   and Method for Measuring Competitive Adsorption Capacity of CO2 and Alkane in   Shale, Invention, ZL201710217976.8, 2/6

9.    Apparatus   and Method for Evaluating Mobile Oil Saturation in Shale, Invention,   ZL201710218173.4, 8/11


Honors and Awards

1.    In   2020, Outstanding PhD Dissertation Award, China University of Petroleum (East   China)

2.    In   2019, 21st Century Outstanding Visiting Scholar, Texas Tech University, USA


Courses:

Undergraduate Courses: Unconventional Energy   Drilling and Production Technology, Engineering Graphics, Fracture Mechanics

Postgraduate Courses: Fluid Mechanics in Porous   Media





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