研究队伍
研究队伍

深部非常规油气资源-陈万

发布人:黄满发表时间:2020-11-07点击:

程 万

基本信息

姓名: 程万

职称: 副研究员/副教授

出生年月:19877

电话:13018085935      

E-mailchengwancup@163.com

QQ715158784

 

教育及工作背景

2012 .09~2016.06  中国石油大学(北京) 博士      油气井工程

2014.08~2015.09   美国佐治亚理工学院    联合培养博士  岩土工程

2016.07~2018.12  中国地质大学(武汉) 工程学院 勘基系   助理研究员/讲师

2018.12~ 至今    中国地质大学(武汉) 工程学院 勘基系   副研究员/副教授

 

硕士、博士招生专业:

地质工程、土木工程、岩土工程、石油工程。

欢迎勤奋好学、责任心较强、积极上进的优秀本科生报考;优先考虑有志攻读博士学位的学生;优先考虑数学、力学基础好的学生;科研经费充足,支持学生创新性研究。

 

研究方向

1非常规油气资源开发:水力压裂技术,井壁稳定技术,页岩气、致密气、水合物、地热开发多场耦合数值模拟,水力压裂和井壁稳定模拟软件开发。

2石油工程岩石力学:深部岩石力学、水力压裂力学、井壁稳定力学。

 

主讲课程

钻井岩石力学、石油工程概论、北戴河地质认识实习、钻探工程教学实习等。

4年科研项目

1.国家自然科学基金面上项目:深部弱塑性页岩气储层密切割压裂裂缝均衡扩展行为研究,主持,在研;

2.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,主持,在研;

3.湖北省自然科学基金面上项目:流--弹耦合作用下页岩气水平井分段压裂模拟研究,主持,已结题;

4.钻探技术重点实验室开放基金:深水浅部天然气水合物储层水平井井壁稳定性研究,主持,已结题;

5.页岩油气开发国家重点实验室开放基金:页岩水平井水力裂缝均衡扩展数值模拟研究,主持,已结题;

6.中央高校启动经费项目:页岩气水平井水力压裂数值模拟研究,主持,已结题;

7.横向合作项目:天然气水合物储层物性及力学性质研究,主持,已结题;

8.横向合作项目:天然气水合物地层井壁稳定研究,主持,已结题;

9.横向合作项目:大型真三轴物理模拟实验裂缝扩展规律,主持,已结题;

10.横向合作项目:压裂液作用下的页岩力学行为研究,主持,已结题;

11.国家863高技术项目: 页岩气储层改造技术研究,已结题,第7

12.国家重点研发计划:乳品废水乳糖母液基微生物固井技术,在研,第5;

13.国家重点研发计划子课题:水合物试采出砂预测与井眼安全评价技术,已结题,第5;

14.国家重点研发计划子课题:水合物储层出砂预测技术与微观模拟装置研发,已结题,第4

15.国家实验室开放基金:天然气水合物储层特征与流固体产出规律研究,已结题,第4

16.国家自然科学基金面上项目:纳米颗粒和防聚剂对钻井液中水合物形成的影响研究,已结题,第4

17.国家自然科学基金面上项目:共和盆地储层干热岩人工裂隙与流体传热机理机热能效应研究,已结题,第6

18.横向合作项目: 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,已结题,第2

 

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, 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, T2)

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

5. Wan Cheng, Hui Gao. 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, T2)

6. Wan Cheng, Rongjing Wang. 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, T2)

7. 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, T2).

8. Wan Cheng, Guosheng Jiang. A porochemothermoelastic coupling model for continental shale wellbore stability and a case analysis. Journal of Petroleum Science and Engineering, 2019, 182:106265. (SCI, T2).

9. Wan Cheng, Fulong Ning. A porothermoelastic wellbore stability mode for riserless drilling through gas hydrate-bearing sediments in the Shenhu area of the South China Sea.  Journal of Natural Gas Science & Engineering, 2019, 72. 103036. (SCI, T2)

10. 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, T3)

11. 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, T4)

12. 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2015,03:559~563EIT4

13. 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 (EIT4)

14. 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): 2681–2691SCI, T4

15. 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: 467~473EI, T4

16. 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, 2018,1-6SCI, T4

17. 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,2018.39(12): 4448-4456EI, T4

18. 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, T4)

19. Wan Cheng, Guosheng Jiang, Jingyu Xie. A Simulation Study Comparing the Texas Two-Step and the Multistage Consecutive Fracturing Method. Petroleum Science, 2019, 16:1121-1133. (SCI, T4).

20. Wan Cheng, Guosheng Jiang. Numerical Simulation for the Dynamic Breakout of a Borehole Using Boundary Element Method. Geotechnical and Geological Engineering. 2019, 37, 2873–2881. (SCI, T4).

21. Wan Cheng, Chunhua Lu, Zhidong Zhou. Modeling of Borehole Hydraulic Fracture Initiation and Propagation with Pre-existing Cracks Using the Displacement Discontinuity Method. Geotechnical and Geological Engineering. 2020, 38, 2903–2912. (SCI, T4).

22. 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, T1).

23. Yijin Zeng, Wan Cheng. A criterion for identifying a mixed mode I/II hydraulic
fracture crossing a natural fracture in the subsurface
. Energy Exploration & Exploitation. 2020

24. 程万, 金衍, 陈勉, . 三维空间中水力裂缝穿透天然裂缝的判别准则. 石油勘探与开发, 2014, 41(3): 371-376.EIT4

25. 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

26. 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. 201638(1)1~9(中文核心,T5

27. 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

 

 

发明专利、获奖、专著:

1.金衍,程万,陈勉. 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.X2016年;

2.侯冰,程万,陈勉. 一种水平井多级水力压裂物理模拟方法. 国家发明专利, ZL 201410351879.42016年;

3.侯冰,陈勉,程万. 一种节理性页岩人造岩心的制备方法,国家发明专利, ZL 20141 0260860.9, 2016年;

4.高辉,田红,程万. 页岩气水力压裂优化设计软件,软件著作权,2016年,登记号2017SR270151

5.程万,宁伏龙,李晓东. 多物理场耦合的井壁稳定预测软件, 软件著作权,2018年,登记号2018SR1033638

6.程万(排名第2. 中国石油和化工协会专利奖-优秀奖,2018年;

7.程万,金衍. 学术专著 《基于边界元法的水力压裂数值模拟技术》,科学出版社,2018年;

8.程万. 多物理场耦合的全三维水力压裂数值模拟软件,软件著作权,2019年,登记号2019SR1243446

9. 程万(排名第7. 湖北省科技进步一等奖,2020年。

 

审稿期刊

SPE JournalRock Mechanics and Rock EngineeringInternational Journal of Rock Mechanics and Mining ScienceJournal of Petroleum Science and EngineeringEngineering Fracture MechanicsEngineering GeologyEnergiesInternational Journal of Fracture MechanicsJournal of Natural Gas Science and EngineeringJournal of Geophysics and EngineeringEngineering Analysis with Boundary ElementsGeotechnical and Geological EngineeringComputers and Geotechnics石油勘探与开发、石油学报、天然气地球科学、岩土力学、Petroleum ScienceEnergy Sources, Part A: Recovery, Utilization, and Environmental EffectsGeofluids.