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ASSOCIATE PROFESSOR

Bo Wang

Wang Bo,61518_500x500

 Ph.D., 

associate professor (master's director), 

E-mailwb_cup@163.com; wangbo@cupk.edu.cn

TEL:0990-663353618099905217

Education experience:

2009.7-2013.6, China University of Petroleum (Beijing), Petroleum Engineering, Undergraduate

2013.9-2015.6, China University of Petroleum (Beijing), Oil and Gas Field Development Engineering, Master

2015.7-2019.12, China University of Petroleum (Beijing), Oil and Gas Well Engineering, Ph.D.

2018.10-2019.10, University of Tulsa, United States, Petroleum Engineering, Doctoral Joint Training

Work experience:

2020.05-2022.07 Lecturer of Karamay Campus, China University of Petroleum (Beijing)

2022.08-present Associate Professor of Karamay Campus, China University of Petroleum (Beijing)

Lecture course:

Oil Production Engineering, Well Finishing Engineering, Unconventional Oil and Gas Development and Reservoir Transformation, Introduction to Oil and Gas Field Development Engineering, Progress and Case Analysis of Oil Production Project.

Research direction:

  1. Hydraulic fracturing field process, numerical simulation, model experiment; 2. Artificial intelligence-assisted hydraulic fracturing optimization; 3. Numerical simulation of reservoirs; 4. Integrated modeling and simulation of quality engineering; 5. Analysis of fracking effect

Paper:

[1]     Wang Bo, Zhou Fujian*, Yang Chen, Wang Daobing, Yang Kai, Liang Tianbo*. Experimental study on injection pressure response and fracture geometry during temporary plugging and diverting fracturing[J]. SPE Journal, 2020, 25(02): 573-586.

[2]     Wang Bo, Zhou Fujian*, Zou Yushi, Liang Tianbo. Wang Daobing, Xue Yanpeng, Gao Liyang. Quantitative investigation of fracture interaction by evaluating fracture curvature during temporarily plugging staged fracturing[J]. Journal of Petroleum Science and Engineering, 2019, 172: 559-571.

[3]     Wang Bo, Zhou Fujian*, Yang Chen, Xu Chao, Liu Jianfu, Han Shaobao, Wang Daobing, Ren Zongxiao, Liang Tianbo*. A novel experimental method to investigate the plugging characteristics of diversion agents within hydro-fracture[J]. Journal of Petroleum Science and Engineering, 2019, 183: 106354.

[4]     Wang Bo, Zhou Fujian*, Zou Yushi, Liang Tianbo, Wang Daobing, Hu Jia, Gao Liyang. Effects of previously created fracture on the initiation and growth of subsequent fracture during TPMSF[J]. Engineering Fracture Mechanics, 2018, 200: 312-326.

[5] Wang Bo, Zhou Fujian*, Wang Daobing, Liang Tianbo, Yuan Lishan, Hu Jia. Numerical simulation on near-wellbore temporary plugging and diverting during refracturing using XFEM-Based CZM[J]. Journal of Natural Gas Science and Engineering, 2018, 55: 368-381.

[6]     Wang Bo*, Zhou Fujian*, Zhou Hang, Ge Hui, Li Lizhe. Characteristics of the fracture geometry and the injection pressure response during near-wellbore diverting fracturing[J]. Energy Reports, 2021, 7: 491-501.

[7] Wang Bo, Zhou Fujian*, Liang Tianbo, Wang Daobing. Gao Liyan, Hu Jia. Evaluations of fracture injection pressure and fracture mouth width during separate-layer fracturing with temporary plugging[J]. Mathematical Problems in Engineering, 2018, 2018.

[8]     Wang Bo, Zhang Guchang, Xu Hualei, et al. Insights into the activation characteristics of natural fracture during in-fracture temporary plugging and diverting fracturing[J]. Computers and Geotechnics, 2023, 162.

[9]     Wang Bo, Fang, Y.; Li, L.; Liu, Z. Automatic Optimization of Multi-Well Multi-Stage Fracturing Treatments Combining Geomechanical Simulation, Reservoir Simulation and Intelligent Algorithm. Processes 2023, 11, 1759. https://doi.org/10.3390/pr11061759

[10]   Wang Bo, Zhang Guchang, Sun Zhenglong, et al. Plugging Characteristics of Self-degradable Diverters within three-dimensional Hydro-fractures: An Experimental Investigation[J]. Physics of Fluids, 

[11]   Lu Yutian, Wang Bo, Zhao Yingying*, Yang Xiaochen, Li Lizhe, Dong Mingzhi, Lv Qin, Zhou Fujian, Gu Ning, Shang Li. Physics-informed surrogate modeling for hydro-fracture geometry prediction based on deep learning[J]. Energy, 2022, 253: 124139.