一、个人简介
陈勉,教授,从事石油工程岩石力学的科研与教学工作。是国务院学位委员会第六届学科评议组石油与天然气工程评议组成员(召集人)、国务院学位委员会第五届学科评议组地质矿业石油评议组成员、全国博士后管委会第六届专家组成员、国家自然科学基金重大项目“页岩油气高效开发基础理论研究”首席科学家、中国岩石力学与工程学会常务理事、深层岩石力学专业委员会主任、《石油科学通报》主编。出版《石油工程岩石力学》(科学出版社,2008)等专著6部,在国内外发表学术论文300余篇。所提出的非平面压裂技术开辟了提高油气产量的新途径,大幅度提高了压裂成功率和单井增产,挽救了一批濒临放弃的区块,其理论成果得到国际同行权威学者的高度评价,其成果“大幅度提高油气产量的非平面压裂技术与工业化应用”在2009年获得国家科技进步二等奖。所提出的井壁稳定钻前预测方法的应用大幅度提高了深层钻探成功率,不但在国内十余个油田推广应用,而且为我国石油企业开拓中亚、南美、非洲、东南亚和中东市场做出了积极贡献,该成果“高应力强水敏深层钻井围岩稳定技术及工业化应用”2011年获得国家科技进步二等奖。陈勉积极开展教学改革,倡导教育教学国际化和多途径实践能力培养,培养学生的全球化意识和实践应用能力在石油工程教育取得显著成效,其成果“实施精品战略建设石油勘探开发品牌专业”获得2009年国家级教学成果二等奖。“和而不同--石油工程领域研究生培养体系重建”获得2014年中国研究生教育成果二等奖。
二、受教育及工作经历
(一)受教育经历
1978.10-1982.7 北京大学力学系本科生
1985.9-1988.7 辽宁大学数学系硕士研究生
1988.9-1991.7 中国矿业大学北京研究生部博士研究生
(二)工作经历
1982.11-1985.9 辽宁大学数学系助教
1991.10-1993.11 石油大学(北京)博士后
1993.12-1995.6 石油大学(北京) 副教授
1997.2-1997.8 美国俄克拉荷马大学访问学者
1995.6-今 中国石油大学(北京)教授
三、承担的主要科研项目
1、国家自然科学基金重大项目,页岩油气高效开发基础理论;
2、国家自然科学基金联合基金重点项目,超深井井筒安全构建工程基础理论与方法;
3、国家自然科学基金国际(地区)合作与交流项目,基于热-流-固耦合的裂缝扩展的细观与宏观机理;
4、国家自然科学基金重点项目,页岩气开采岩石力学。
四、发表论文情况
1、Importance of Gas Acceleration Near the Wellbore in Radial Compressible Porous Media Flows for a Vertical Gas Well,Transport in Porous Media,2015,SCI
2、Analytical modeling of acceleration-induced conductivity damage in a propped hydraulic fracture of a high-pressure gas well,Journal of Natural Gas Science and Engineering,2015,SCI
3、Gas expansion-induced acceleration effect of a highly compressible gas flow in porous media,Journal of Porous media,2015,SCI
4、Hydrodynamic modeling of mud loss controlled by the coupling of discrete fracture and matrix,Journal of Petroleum Science and Engineering,2015,SCI
5、Comprehensive methodology for detecting fracture aperture in naturally fractured formations using mud loss data,Journal of Petroleum Science and Engineering,2015,SCI
6、Reactivation mechanism of natural fractures by hydraulic fracturing in naturally fractured shale reservoirs,Journal of Natural Gas Science & Engineering,2015,SCI
7、A novel linear triangular element of three-dimensional displacement discontinuity method,Engineering Analysis with Boundary Elements,2015,SCI
8、页岩气渗流过程中的多场耦合机理,中国科学:物理学 力学 天文学,2015
9、Experimental study of step-displacement hydraulic fracturing on naturally fractured shale outcrops,Journal of Geophysics and Engineering,2015,SCI
10、Oil-based critical mud weight window analyses in HTHP fractured tight formation,Journal of Petroleum Science and Engineering,2015,SCI
11、Water activity characteristics of deep brittle shale from Southwest China,Appl. Clay Sci.,2015,SCI
12、Modeling pore size distribution of southern Sichuan shale gas reservoirs,Journal of Natural Gas Science and Engineering,2015,SCI
13、Pore-pressure prediction in carbonate rock using wavelet transformation,Geophysics,2014,SCI
14、页岩气渗流数学模型,科学通报,2015
15、Wellbore Stability Model for Shale Gas Reservoir Considering the Coupling of Multi-Weakness Planes and Porous Flow,Journal of Natural Gas Science and Engineering,2014,SCI
16、Hydrodynamic modeling of mud loss controlled by the coupling of discrete fracture and matrix,Journal of petroleum science and engineering,2013,SCI
17、Experimental study and numerical modeling of brittle fracture of carbonate rock under uniaxial compression,Mechanics Research Communications,2013,SCI
18、3D Imaging of fractures in carbonate rocks using X-ray computed tomography technology,Carbonates and Evaporates,2014,SCI
19、Analysis of the Influence of a Natural Fracture Network on Hydraulic Fracture Propagation in Carbonate Formations,Rock Mech Rock Eng,2013,SCI
20、Discrete element model for coal wellbore stability,International Journal of Rock Mechanics & Mining Sciences,2012,SCI
21、Mechanical Model of Borehole Stability for Weak Plane Formation under Porous Flow,Petroleum Science & Technology,2012,SCI
22、The Development and Application of an Environment Friendly Coat EBA-20,Petroleum Science & Technology,2012,SCI
23、Dual Protection Drilling Fluid System and its Application,Petroleum Science and Technology,2012,SCI
24、Multilayer Pressure Containment Model and its Application in Deep Well Fractured Formation,Rock Mechanics and Rock Engineering,2012,SCI
25、Determination of Rock Fracture Toughness KIIC and its Relationship with Tensile Strength,Rock Mech Rock Eng,2012,SCI
26、Analysis of the External Pressure on Casings Induced by Salt-Gypsum Creep in Build-up Sections for Horizontal Wells,Rock Mech and Rock Engineering,2011,SCI
27、Short-time pressure response during the start-up of a constant-rate production of a high pressure gas well. Physics of Fluids,2011,SCI
28、Development of tensile stress near a wellbore in high pressure gas flows. International Journal of Rock Mechanics & Mining Sciences,2011,SCI
