程万

基本信息

姓名: 程万                    

出生年月:1987年7月  

籍贯:湖北麻城                

最高学位:博士 

电话:13018085935          

E-mail:chengwancup@163.com   

QQ:715158784


教育、工作背景

2012 ~2016  中国石油大学(北京)博士                    油气井工程

2014 ~2015  美国佐治亚理工学院   联合培养博士    岩土工程

2016 ~至 今  中国地质大学(武汉)                       勘察与基础工程系


招生专业、研究方向

硕士招生专业: 地质工程

对考生的具体要求:欢迎勤奋好学、责任心较强的本科生报考


研究方向

(1)非常规油气资源勘探开发:水力压裂实验和数值模拟、酸化压裂返排控制技术、井壁稳定钻前预测、多场耦合数值模拟、岩石力学行为数值模拟。

(2)主讲课程:钻井岩石力学、石油工程概论。

 

主持或参加的科研项目

湖北省自然科学基金面上项目:流-孔-弹耦合作用下页岩气水平井分段压裂模拟研究,2018.1~2019.12,项目负责人

国家自然科学基金青年基金:水力压裂停泵泄压条件下页岩水力裂缝网络闭合理论模型研究,2019.1~2021.12,项目负责人

南阳油田项目: 泌阳凹陷陆相页岩井眼稳定岩石力学测试与地层可钻性评价, 2017.10~2018.12,参与

国家863课题: 页岩气储层改造技术研究 2013.12~2017.05研究骨干

国家自然科学基金重点项目: 页岩气开采岩石力学 2013.10~2016.06参与

国家杰出青年科学基金: 石油工程岩石力学  2013.04~2016.01参与


学术论文

[1] Wan Cheng, Guosheng Jiang, Hong Tian, et al. Numerical Investigations of the Fracture Geometry and Fluid Distribution of Multistage Consecutive and Alternative Fracturing in a Horizontal Well. Computers and Geotechnics. 2017, 92: 41-56 (SCI, IF=2.6, T2)

[2] Wan Cheng, Guosheng Jiang, Yan Jin, et al. Numerical Simulation on Fracture Path and Nonlinear Closure for Simultaneous and Sequential Fracturing in a Horizontal Well. Computers and Geotechnics. 2017, 88:242-255 (SCI, IF=2.6, T2)

[3] Wan Cheng, Yan Jin, Hong Li, Mian Chen. A novel linear triangular element of three-dimensional displacement discontinuity method. Engineering Analysis with Boundary Elements. 2015, 59: 89~96. (SCI, IF=1.392, T2)

[4] Wan Cheng, Yan Jin, Mian Chen. Reactivation mechanism of natural fractures by hydraulic fracturing in naturally fractured shale reservoirs. Journal of Natural Gas Science & Engineering. 2015, 23:431-439. (SCI, IF=2.157, T3)

[5] Wan Cheng, Yan Jin, et al. Numerical stress analysis for the multi-casing structure inside a wellbore in the formation using boundary element method. Petroleum Science. 2017, 14:126~137 (SCI, IF=1.3, T4)

[6] Wan Cheng, Hui Gao, et al. A Study to Assess the Stress Interaction of Propped Hydraulic Fracture on the Geometry of Sequential Fractures in a Horizontal Well. Journal of Natural Gas Science & Engineering, 2017, 37:69~84 (SCI, IF=2.1, T3)

[7] Wan Cheng, Yan Jin, Mian Chen, et al. A criterion for a hydraulic fracture crossing a natural fracture in a 3D space. Petroleum Exploration & Development, 2014. 41(3): 371-376. (SCI, IF=1.592, T4)

[8] Wan Cheng, Yan Jin, Mian Chen. Experimental study of step-displacement hydraulic fracturing on naturally fractured shale outcrops. Journal of Geophysics and Engineering. 2015, 12: 714~723. (SCI, IF=0.778, T3)

[9] Wan Cheng, Rongjing Wang, et al. Modeling of Hydraulic Fracturing in a Complex-Fracture-Network Reservoir with DDM and Graph Theory. Journal of Natural Gas Science & Engineering, 2017, 47: 73-82, (SCI, IF=2.1, T3)

[10] 程万, 金衍, 陈勉, 等. 三维空间中水力裂缝穿透天然裂缝的判别准则[J]. 石油勘探与开发, 2014, 41(3): 371-376. (中文核心, T4)

[11] 程万,金衍,陈勉. 一种基于页岩损伤规律的井壁坍塌压力确定方法.石油钻探技术. 2014, 42(2): 37~40. (中文核心,T5)

[12] 程万,金衍,卢云虎. 超深井侧钻段泥岩井壁失稳分析.石油钻探技术,2014, 42(6): 53~58.(中文核心,T5)

[13] 程万,金衍,陈勉,等. 三维空间中非连续面对水力压裂影响的试验研究.岩土工程学报,2015,03:559~563(EI,T4)

[14] 侯冰,程万,陈勉. 裂缝性页岩储层水力裂缝非平面扩展试验研究, 天然气工业, 2014, 34(12):81~86 (EI,T4)

[15] 金衍,程万,陈勉. 页岩气储层压裂数值模拟技术研究进展. 力学与实践. 2016,38(1):1~9 (中文核心,T5)

[16] Bing Hou, Mian Chen, Wan Cheng. Investigation of hydraulic fractures networks in shale gas reservoirs with random fractures. Arabian Journal for Science and Engineering. 2016,41(7): 2681–2691 (SCI, IF=0.728) (SCI, IF=0.8,T4)

[17] Wan Cheng, Yan Jin, Qing Lin, Mian Chen, et al. Experimental investigation about influence of natural fracture on hydraulic fracture propagation under tri-axial stresses. Geotechnical and Geological Engineering. 2015, 33: 467~473  (EI, T4)

[18] Guosheng Jiang, Wan Cheng. Hydraulic Fracture Deflection at Bedding Plane due to the Non-orthogonal Propagation and the Dissimilar Material Properties. Arabian Journal for Science and Engineering, 2018,1-6(SCI, IF=0.8,T4)

[19] Wan Cheng, Yan Jin, Mian Chen, et al. Experimental investigation about influence of natural fracture on hydraulic fracture propagation under different fracturing parameters. 8th Asian Rock Mechanics Symposium. 2014.(EI, T4)

[20] Wan Cheng, Guosheng Jiang, et al. Numerical Simulation on Hydraulic Fracturing in a Discrete- Fracture Network Reservoir with DDM and Graph Theory. American Rock Mechanics Association, 2017, June 24-26.(EI, T4)

[21] 程万,蒋国盛. 水平井中多条裂缝同步扩展时裂缝竞争机理,岩土力学,2018年,12(EI, T4)

[22] Jingyu Xie, Wan Cheng, Guosheng Jiang. Experiments and analysis on the influence of perforation mode on hydraulic fracture geometry in shale formation. Journal of Petroleum Science and Engineering, 2018,168:133-147. (SCI, T3).

[23] Wan Cheng, Guosheng Jiang, Jingyu Xie. A Simulation Study Comparing the Texas Two-Step and the Multistage Consecutive Fracturing Method. Petroleum Science,, 2018 (SCI, T3, Under review).

[24] Wan Cheng, Guosheng Jiang. Numerical Simulation for the Dynamic Breakout of a Borehole Using Boundary Element Method. Geotechnical and Geological Engineering. 2018. (SCI, T4, Under review).

[25] Zhennan Zhu, Hong Tian, Guosheng Jiang, Wan Cheng. Effects of High Temperature on the Mechanical Properties of Chinese Marble. Rock Mechanics and Rock Engineering, 2018,51:1937-1942. (SCI, T2).


发明专利

金衍,程万,陈勉,等。一种基于压裂地质体可压裂性的储层分析方法及装置.国家发明专利 201310316247.X

侯冰,程万,等。一种水平井多级水力压裂物理模拟方法.国家发明专利 ZL 201410351879.4



审稿

国际期刊SPE Journal、Journal of Petroleum Science and Engineering、Journal of Natural Gas Science & Engineering、Journal of Geophysics and Engineering、Engineering Analysis with Boundary Elements、Geotechnical and Geological Engineering、Computers and Geotechnics审稿人。