Department of Drilling Engineering
Dr. Chen Mian
Education
PhD from China University of Mining & Technology (Beijing)
M.S. from Liaoning University
B.S. from Peking University
Research (Areas of Research Focus)
Rock mechanics in petroleum engineering
Teaching
Continuum mechanics, Engineering mechanics, Rock mechanics.
Previous Teaching Experience (Previous Relevant Working Experience)
1982-1985, Liaoning University, Assistant professor
1991-1993, China University of Petroleum (Beijing), Postdoc
1993-1995, China University of Petroleum (Beijing), Associate professor
1995-present, China University of Petroleum (Beijing), Professor
1997, University of Oklahoma, Visiting scholar
Other Functions
Convenor of Oil & Gas Engineering in the Academic Degree Committee of the State Council
National Postdoc Administration Committee experts team member
Executive member of Chinese Society for Rock Mechanics and Engineering
Director of National Deep Rock Mechanics Committee
Vice chairman of the CPPCC Beijing Municipal Changping District Committee
Professional Affiliations
Society of Petroleum Engineering
Contact
Email: chenmian@vip.163.com
TEL: 86-10-89732206
Address of Office: Rm 913, Zhongyou Building
Publications
[1] 《石油工程巖石力學》,科學出版社,2008
[2]Second-order effect of an elastic circular Shaft during torsion,Appl. Math. Mech.,Vol. 12, No. 9,1991
[3]Coupling mechanical and chemical study on wellbore stability,International Symposium on new development in Rock Mechanics and Engineering,1994
[4]Determination of Rock Fracture Toughness and its Relationship with Acoustic Velocity,International Journal of Rock Mechanics and Mining Sciences,Vol. 34, No. 3/4,1997
[5]On Uniqueness,Existence and Objection of S-R Decomposition Theorem,App. Math. Mech.,No. 9,1997
[6]Analysis of Hydraulic Fracture Behavior With a Three Dimensional Microcomputer Simulator,SPE38059,1997
[7]水壓致裂法測定巖石的斷裂韌性,巖石力學與工程學報,第16卷,第1期,1997
[8]層狀介質中水力壓裂裂縫的垂向擴展,石油大學學報,第21卷,第4期,1997
[9]Modeling stress-dependent permeability for anisotropic fractured porous rocks,Int. J. Rock Mech. Min. Sci.,Vol. 35,No. 8,1998
[10]用斜井巖芯的凱塞效應確定地應力,巖石力學與工程學報,第17卷,第3期,1998
[11]Permeability tensors of anisotropic fractured networks,Mathematical Geology,Vol. 31, No. 4,1999
[12]Effective Stress laws for multi-porosity media, Appl. Math. Mech., Vol. 20, No. 11, 1999
[13]利用FLAC分析膏鹽巖地層的井眼縮徑變形,石油大學學報,第23卷,第2期,1999
[14]多重孔隙介質的有效應力定律,應用數學和力學,第20卷,第11期,1999
[15]鹽巖地層蠕變規律研究,巖石力學與工程學報,第19卷,增刊,2000
[16]大尺寸真三軸水力壓裂模擬與分析,巖石力學與工程學報,第19卷,增刊,2000
[17]斜直井中扭矩和軸力共同作用下鉆柱的屈曲問題,石油大學學報,第24卷,第5期,2000
[18]利用測井資料預測深部地層巖石斷裂韌性,巖石力學與工程學報,第20卷,第4期,2001
[19]鉆前井壁穩定預測方法的研究,石油學報,第22卷,第3期,2001
[20]圍壓條件下巖石斷裂韌性的實驗研究,力學與實踐,第23卷,第4期,2001
[21]利用圍壓下巖石的Kaisir效應測定地應力,巖石力學與工程學報,第21卷,第3期,2002
[22]圍壓下的泥巖斷裂韌性測試,巖石力學與工程學報,第20卷,增刊,2002
[23]圍壓下利用凱澤效應測量地應力,巖石力學與工程學報,第21卷,第3期,2002
[24]裂紋寬度對巖石斷裂韌性測試結果的影響,石油大學學報,第26卷,第6期,2002
[25]井壁圍巖破壞與泥漿密度關系研究,石油鉆采工藝,第3期,2002
[26]深層鹽膏巖蠕動規律研究,石油鉆采工藝,第6期,2002
[27]水力壓裂中多裂縫間相互干擾力學分析,石油大學學報,第27卷,第3期,2003
[28]射孔對地層破裂壓力的影響研究,巖石力學與工程學報,第22卷,第1期,2003
[29]鹽巖井眼溶解速率的試驗測定,石油鉆探技術,第3期,2003
[30]深層地應力測量新方法,巖石力學與工程學報,第23卷,第14期,2004
[31]大位移井井壁穩定三維彈塑性有限元分析,巖石力學與工程學報,第23卷,第14期,2004
[32]利用層速度鉆前預測安全泥漿密度窗口研究,巖石力學與工程學報,第23卷,第14期,2004
[33]中國深層巖石力學研究及在石油工程中的應用,巖石力學與工程學報,第23卷,第14期,2004
[34]Laboratory measurement and interpretation of the fracture toughenss of formation rock at great depth,Journal of Petroleum Science and Engineering,Vol. 41, N. 1-3,2004
[35]利用地震記錄鉆前預測井壁穩定性研究,石油學報,第25卷,第1期,2004
[36]斜井井筒附近水力裂縫空間轉向模型研究,石油大學學報,第28卷,第4期,2004
[37]易坍塌地層橢圓形井眼內套管應力的有限元分析,石油大學學報,第28卷,第2期,2004
[38]裂紋寬度對巖石斷裂韌性測試結果的影響,石油大學學報,2004
[39]Study on the Influence of Peforation on Formation Fracturing Practice,Petroleum Science,2004
[40]各向異性雙重孔隙介質有效應力定律,科學通報,第49卷,第21期,2004
[41]Effective stress law for anisotropic double porous media,CHINESE SCIENCE BULLETIN,49 (21),2004
[42]定向井套管應力隨地應力條件的變化規律,石油學報,第26卷,第1期,2005
[43]松軟地層套管損壞的影響因素研究,石油勘探與開發,第32卷,第1期,2005
[44]高壓氣藏地層三維出砂預測模型及方法,巖土工程學報,第27卷,第2期,2005
[45]松軟地層套管損壞的影響因素研究,石油勘探與開發,第32卷,第1期,2005
[46]水平井水力裂縫非平面擴展研究,石油學報,第26卷,第3期,2005
[47]天然裂縫地層中垂直井水力裂縫起裂壓力模型研究,石油學報,第26卷,第6期,2005
[48]套管、水泥環及井壁圍巖組合體的彈塑性分析,石油學報,第26卷,第6期,2005
[49]穩定巖膏層井眼的不飽和有機鹽水鉆井液新技術,巖土力學,2005
[50]地層各向異性對套管受力的影響,巖石力學與工程學報,第26卷,增刊,2005
[51]高壓氣藏地層三維出砂預測模型及方法,巖土工程學報,2005
[52]Fully coupled dual-porosity model for anisotropic foemations,Rock Mechanics and Mining Science,43,2006
[53]利用聲發射原理進行套管損壞實時監測實驗研究,石油勘探開發,第33卷,第2期,2006
[54]天然裂縫地層斜井水力裂縫起裂壓力模型研究,石油學報,第27卷,第5期,2006
[55]復雜泥頁巖地層地應力的確定方法研究,巖石力學與工程學報,第25卷,第11期,2006
[56]蠕變地層套管等效破壞載荷分析,中國石油大學學報,第30卷,第4期,2006
[57]Relationship between Rock Fracture Toughness and Physical Properties,Petroleum Science V3,N1,2006
[58]水平井水壓致裂裂縫非平面擴展模型研究,工程力學,第23卷,第4期,2006
[59]壓裂酸化中近縫區灰巖強度弱化效應試驗研究,巖石力學與工程學報,第26卷,第1期,2007
[60]巖石I、II型斷裂韌性的測試及其影響因素分析,石油大學學報,第31卷,第4期,2007
[61]deformation mechanisms and safe drilling fluids density in extremely thick salt formations,petroleum Science,V4,N4,2007
[62]裂縫性儲層水力裂縫擴展機理試驗研究,石油學報,第28卷,第5期,2007
[63]基于地震屬性技術的井壁穩定隨鉆預測新方法,中國石油大學學報,第31卷,第6期,2007
[64]井壁穩定性實時預測方法,石油勘探與開發,第35卷,第1期,2008
[65]泥頁巖粘土礦物組分的確定新方法及對鉆井液性能的優化,中國石油大學學報(自然科學版)
[66]加載速率對不同巖性巖石Kaiser效應影響的實驗研究,巖石力學與工程學報
[67]Borehole stability in naturally fractured reservoirs during production tests,Petroleum Science Volume,5,Number 3,2008
[68]多裂縫儲層水力裂縫擴展機理試驗,中國石油大學學報,第32卷,第4期,2008
[69]Kaiser取樣偏差對深層油藏地應力測試的影響分析,巖石力學與工程學報,第27卷,第8期,2008
[70]隨機裂縫性儲層壓裂特征實驗研究,石油學報,第29卷,第3期,2008
[71]"Analysis of fracture propagation behavior and fracture geometry using a tri-axial fracturing system in naturally fractured reservoirs,International Journal of Rock Mechanics and Mining Sciences,Volume 45, Issue 7, 2008
[72]井壁穩定實時預測方法,石油勘探與開發,第35卷,第1期,2008
[73]定向射孔水力壓裂復雜裂縫形態,石油勘探與開發,第36卷,第1期,2009
[74]基于自鎖概念的巖體弱面破壞模型與規律研究,巖土工程學報,第31卷,第7期,2009
[75]Study of the optimal timing for refracturing,petroleum science and technology,27,2009
[76]定向射孔對水力裂縫起裂與延伸的影響,巖石力學與工程學報,第28卷,第7期,2009
[77]碳酸鹽巖儲層加砂酸壓支撐裂縫短期導流能力試驗,中國石油大學學報(自然科學版),第33卷,第4期,2009
[78]depressant repalces mechanisim method for removing blockage,Oil & Gas Journal,Nov. 2,2009
[79]水力裂縫在地層界面的擴展行為研究,石油學報,第30卷,第3期,2009
[80]壓裂井試油壓差優化的實驗與有限元模型,石油勘探與開發,第36卷,第2期,2009
[81]基于鹽巖損傷的深部鹽層鉆井液密度設計方法,石油學報,第30卷,第5期,2009
[82]A prediction method of borehole stability based on seismic attribute technology Journal of Petroleum Science and Engineering,65 ,2009
[83]Time-sensitivity of the Kaiser effect of acoustic emission in limestone and its application to measurements of in-situ stress,Pet.Sci. ,6:,2009
[84]The Experimental Investigation of Fracture Propagation Behavior and Fracture Geometry in Hydraulic Fracturing through Oriented Perforations,Petroleum Science and Technology, 28:1297—1306, 2010
[85]Study of Influence of Kaiser Sampling Deviation on Underground Stress Measurements,Energy Sources, Part A: Recovery, Utilization, and Environmental Effects,32:886—893, 2010
[86]Study of Damage Mechanism by Production Testing after Acid Fracturing of Carbonate Reservoir,Petroleum Science and Technology,28:125—134, 2010
[87]Dynamic fracture propagation in hydraulic re-fracturing Journal of Petroleum Science and Engineering,70:266—272,2010
[88]The Relationship Between the Production Rate and Initiation Location of New Fractures in a Refractured Well,Petroleum Science and Technology,28:655—666, 2010
[89]深層地應力地埋方位確定的新方法,巖石力學與工程學報,第30卷,第2期,233-237,2011
[90]Determination of Rock Fracture Toughness KIIC and its Relationship with Tensile Strength,Rock Mech Rock Eng,44:621—627,2011
[91]Salt-gupsum bed complicates Tarim horizontal driling,Oil & Gas Journal 2011, Apr.4,86-93
[92]基于實鉆資料的井壁穩定實時預測理論,石油學報,第2卷,第32期,324-328,2011
[93]Determination of Rock Fracture Toughness KIIC and its Relationship with Tensile Strength,Rock Mech Rock Eng,44:621—627,2011
[94]水平井試油過程裂縫性儲層失穩機理,石油學報,第32卷,第2期,2011
[95]An environment friendly drilling fluid system,PETROLEUM EXPLORATION AND DEVELOPMENT,Volume 38, Issue 3,2011
[96]砂巖儲集層酸化后試油井壁穩定性模型,石油勘探與開發,第38卷,第5期,2011
[97]Mechanical-Thermal-Chemical Coupled Research of Wellbore Stability in Jabung Oil Field, Indonesia,Advanced Materials Research,2011
[98]Research of Drilling Complexities in Dabei Belt of Tarim Basin,Advanced Materials Research,42: p.715-719,2011
[99]Analysis of the External Pressure on Casings Induced by Salt-Gypsum Creep in Build-up Sections for Horizontal Wells,Rock Mech and Rock Engineering,2011,44:711—723
[100]水平井試油過程裂縫性儲層失穩的機理研究,石油學報,第32卷,第2期,295-298,2011
[101]Short-time pressure response during the start-up of a constant-rate production of a high pressure gas well. Physics of Fluids, Volume 23, Issue 4,2011
[102]Development of tensile stress near a wellbore in high pressure gas flows,International Journal of Rock Mechanics & Mining Sciences,48,1313—1319,2011
[103]Study and Application of Weakly Gelled Shear Strength—Improving Agent (GEL-30) for Solids-Free Drilling Fluid,Petroleum Science and Technology,30:316—326,2012
