李克文,男,教授,博士生导师 。
历任美国斯坦福大学石油工程系高级研究员、斯坦福大学地热研究所经理、长江大学“楚天学者”特聘教授、CNPC石勘院油层物理研究中心主任、北京大学教授、中国地质大学(北京)教授。曾任SPE REE杂志(为石油工程领域国际权威杂志)副主编、SCA技术委员会委员,目前还担任《国际石油科学与技术》(IJPST)杂志理事以及SPEJ杂志、《多孔介质渗流》(TIPM)、JPSE、《Energy and Fuels》等五个国际专业期刊的技术编辑,教育部油气资源与勘探技术重点实验室学术委员会委员等职务。公开发表论文100余篇,其中国外SCI收录论文34篇、EI收录论文62篇,专著两本,并拥有两项专利。1995年被评为中国石油天然气总公司跨世纪学科带头人,1998年获得国际岩心分析协会(SCA)授予的终身会员奖、2003年荣获美国石油工程师协会(SPE)杰出编辑奖、2002、2005及2006年三次荣获国际地热协会(GRC)最佳论文奖。
李克文教授是国际上从事气润湿反转技术研究工作的学术创始人和油田中低温伴生地热发电领域的知名专家,提出了通过气润湿反转技术减少钻完井伤害、堵水、改善酸化压裂效果、提高低渗透气藏及凝析油气藏产量的新方法。在油气藏生产动态预测方面,建立了基于流体流动规律的产量预测新方法,有关公式以李克文教授的名字命名。在多孔介质中多相流理论方面,首次提出了全流度的概念,并在此基础上建立了储层分类的新方法,解决了用渗透率作为分类依据的一些不足之处。在低渗透、特低渗透裂缝性储层岩石的描述方面,建立了新的孔隙大小 分布和毛管压力通用模型,解决了现有方法不能描述带裂缝的储层岩石的数学难题。根据分形理论推导出了电阻率指数与相对渗透率及毛管压力的相关关系,首次建立了三者之间的数学模型。李克文教授还提出了开发已报废油田的热-电-油联产新理论和新方法,丰富了油气田开发理论,这些创新研究成果具有重要的理论意义和实用价值。多年来,李克文教授主持过国内外多项重大科研项目,在油气田开发分形理论、油气田开发实验新方法、油藏非均质性描述、 油气田伴生地热工程及发电、非常规油气田开发及提高采收率等方面取得了突破性的成果。
荣誉
1.荣获美国石油工程师学会2003年颁发的杰出编辑奖
2.荣获美国地热协会2002、2005、2006年度最佳论文奖
3.美国岩心分析家协会于1998年授予终身会员
4.被中国石油天然气总公司于1995年评为跨世纪学科带头人
5.荣获中国石油天然气总公司科技进步一等奖,二等奖,三等奖多项
工作经验
2010-现在:中国地质大学(北京)能源学院,教授
2005-2010:北京大学能源与资源工程系,教授
1999-现在:美国斯坦福大学资深研究员,SGP研究所经理
1997-1999:美国油藏工程研究所,工程师
1995-1997:法国石油研究院,博士后
1992-1995:北京石油勘探开发研究院(CNPC),高级工程师及油层物理室主任
1990-1992: 中国矿业大学选矿系(北京),博士后
学历
1989年:在石油勘探开发研究院研究生部获油田开发工程博士学位
1987年:在石油勘探开发研究院研究生部获油田开发工程硕士学位
1984年:在湖北江汉石油学院开发系获采油工程学士学位
代表性论文
1.Yu, Y. and Li, K.: “Method for Calculating Temperature Profile in Heavy Oil Wells with Injection of Light Oil Diluent”, Journal of Petroleum Science and Technology, (accepted), 2011.
2. Li, K., Liu, Y., Zheng, H., Huang, G., and Li, G.: “Enhanced Production in Gas-Condensate Reservoirs by Wettability Alteration to Gas Wetness: Experimental Studies”,Journal of Petroleum Science and Engineerin, DOI:10.1016/j.petrol.2011.08.001, 2011.
3.Li, K. and Guan, Y.: “Effective-Well Method for Matching and Predicting Oil Production,” Transport in Porous Media, DOI: 10.1007/s11242-011-9850-6, 2011.
4.Li, K. and Zhao, H.: “Fractal Prediction Model of Spontaneous Imbibition Rate,” Transport in Porous Media, DOI: 10.1007/s11242-011-9848-0, 2011.
5.Li, K.: “Interrelationship between Resistivity Index, Capillary Pressure and Relative Permeability,” Transport in Porous Media, DOI: 10.1007/s11242-011-9745-6, V. 88(3), P. 385, 2011.
6.Li, K.: “Analytical Derivation of Brooks-Corey Capillary Pressure Model Using Fractal Geometry and Evaluation of Rock Heterogeneity”, Journal of Petroleum Science and Engineering (2010), doi:10.1016/j.petrol.2010.05.002.
7.Li, K., Nassori, H., and Horne, R.N.: “Experimental Study of Water Injection into Geothermal Systems,” Transport in Porous Media, DOI: 10.1007/s11242-010-9579-7, 2010.
8.Li, K.: “More General Capillary Pressure and Relative Permeability Models from Fractal Geometry”, Journal of Contaminant Hydrology, doi: 10.1016/j.jconhyd.2009.10.005, 2010.
9.Li, K. and Horne, R.N.: “Method to Evaluate the Potential of Water Injection in Naturally Fractured Reservoirs,” Transport in Porous Media, DOI 10.1007/s11242-009-9473-3, 2009
10.Stacey, R., Li, K., Horne, N.: “Investigating Electrical Impedance Tomography as a Technique for Real-Time Saturation Monitoring,” SPEJ, March, 2009.
11.Li, K. and Horne, R.N.: “Experimental Study and Fractal Analysis of Heterogeneity in Naturally Fractured Rocks,” Transport in Porous Media, DOI: 10.1007/s11242-008-9295-8, 2009.
12.Li, K. and Horne, R.N.: “Estimation of wettability in gas-liquid-rock systems,” Geothermics (2008), doi:10.1016/j.geothermics.2008.03.002.
13.Li, K. and Horne, R.N.: “Numerical Simulation without Using Experimental Data of Relative Permeability,” Journal of Petroleum Science and Engineering, doi:10.1016/j.petrol.2008.03.002, 2008.
14.Li, K.: “A New Method for Calculating Two-Phase Relative Permeability from Resistivity Data in Porous Media,” Transport in Porous Media (2007), DOI 10.1007/s11242-007-9178-4.
15.Li, K. and Horne, N.R.: “Modeling of Oil Production by Gravity Drainage,” Journal of Petroleum Science and Engineering, doi: 10.1016/j.petrol.2007.06.002, 2007.
16. Chen, C.Y., Li, K., and Horne, R.N.: “Experimental Study of Phase Transformation Effects on Relative Permeabilities in a Fracture,” SPEREE, pp. 514-526, Oct., 2007.
17.Li, K. and Horne, R.N.: “Systematic Study of Steam-Water Capillary Pressure,” Geothermics, 36 (2007) 558–574, doi:10.1016/j.geothermics.2007.08.002.
18. Zhou, Z., Wang, X., Xu, Y., Zhao, Z., and Li, K.: “New Formula for Acid Fracturing in Low Permeability Gas Reservoirs: Experimental Study and Field Application,” Journal of Petroleum Science and Engineering, doi:10.1016/j.petrol.2007.04.007, 59/3-4 pp. 257-262, 2007.
19.Li, K. and Williams, W.: “Determination of Capillary Pressure Function from Resistivity Data,” Transport in Porous Media (2006), DOI 10.1007/s11242-006-0009-9.
20.Li, K. and Horne, R.N.: “Generalized Scaling Approach for Spontaneous Imbibition: An Analytical Model,” SPEREE (June, 2006), 251-258.
21. Li, K. and Horne, R.N.: “Comparison and verification of production prediction models,” Journal of Petroleum Science and Engineering (2006), doi:10.1016/j.petrol.2006.08.015.
22.Li, K., Chow, K., and Horne, R.N.: “Influence of Initial Water Saturation on Recovery by Spontaneous Imbibition in Gas-Water-Rock Systems and the Calculation of Relative Permeability,” SPEREE (August, 2006), 295-301.
23.Li, K., and R. N. Horne (2006): “Comparison of methods to calculate relative permeability from capillary pressure in consolidated water-wet porous media,” Water Resour. Res., 42, W06405, doi:10.1029/2005WR004482.
24.Li, K.: “Scaling of Spontaneous Imbibition Data with Wettability Included”, Journal of Contaminant Hydrology (2006), doi: 10.1016/j.jconhyd 2006.09.009.
25.Li, K. and Horne, R.N.: “Fractal Modeling of Capillary Pressure Curves for The Geysers Rocks,” Geothermics, 35 (2006), 198-207, doi: 10.1016/j.geothermics.2006.2.001.
26. Li, K. and Horne, R.N.: “Computation of Capillary Pressure and Global Mobility from Spontaneous Water Imbibition into Oil-Saturated Rock,” SPEJ (December 2005), 458-465.
27.Li, K. and Horne, R.N.: “An Analytical Model for Production Decline Curve Analysis in Naturally Fractured Reservoir,” SPEREE (June 2005), 197-204.
28.Li, K. and Horne, R.N.: “Experimental Study of Gas Slippage in Two-Phase Flow,” SPEREE (December 2004), V.7 (6), 409-414.
29.Li, K. and Horne, R.N.: “An Analytical Scaling Method for Spontaneous Imbibition in Gas-Water-Rock Systems,” SPEJ (September 2004), 9(3), 322-329.
30.Li, K. and Horne, R.N.: “Steam-Water and Air-Water Capillary Pressures: Measurement and Comparison,” J. of Canadian Petroleum Technology (July 2004), V.43, No. 7, 24-30.
31.Li, K. and Horne, R.N.: “An Experimental and Analytical Study of Steam-Water Capillary Pressure,” SPEREE (December 2001), p.477-482.
32.Li, K. and Horne, R.N.: “Characterization of Spontaneous Water Imbibition into Gas-Saturated Rocks,” SPEJ (December 2001), 6(4), p.375-384.
33. Li, K. and Firoozabadi, A.: “Experimental Study of Wettability Alteration to Preferential Gas-Wetness in Porous Media and its Effect,” SPEREE (April 2000), 139-149.
34.Li, K. and Firoozabadi, A.: “Phenomenological Modeling of Critical Condensate Saturation and Relative Permeabilities in Gas Condensate Systems,” SPEJ (June 2000), V.5 (2), 138-147.
代表性著作
1.李克文,沈平平:<<原油与浆体流变学>>,中国石油工业出版社,ISBN7-5021-1246,1994
2.沈平平,李克文等:<<油层物理实验技术>>,中国石油工业出版社,ISBN7-5021-1367,1995
知识产权
1.李克文:新型多功能毛细管流变仪,专利号:91226706.2,1991
2.李克文:新型水煤浆/粘稠流体液位计,专利号:91226707.0,1991
招生专业
油气田开发工程 ;有机化学(化学合成)、高分子化学、纳米材料科学等
研究方向
1.非常规油气田(特低渗透、高含水、稠油催化裂化)提高采收率、储量、产量预测理论与方法
2.油田伴生地热发电方法与技术
联系方式
电子邮件:likewen@cugb.edu.cn
通信地址:北京市学院路29号中国地质大学能源学院 邮编:100083