艾池 系所:油气井工程 地址邮编:东北石油大学163318 学习与工作经历 1978年考入大庆石油学院钻井工程专业,1982年获工学学士学位,
1993年获石油大学工学硕士学位,
1998年考取大庆石油学院油气田开发工程专业攻读博士学位,
并于2003年获大庆石油学院油气田开发工程专业工学博士学位。
曾于1986年赴美国怀俄明大学访问进修13个月。
职称:教授
最高学历/学位:博士学科:石油与天然气工程
所学专业:油气井工程 ;电子邮箱:aichi2001@163.com;联系电话:0459-6503073研究方向
主要从事油气井工程管柱力学、油气井工程岩石力学、井筒完整性、水力压裂机理等方面的教学与科研工作。
主讲课程
在教学上,从事本科生、硕士研究生、博士研究生的石油工程专业英语、油气井工程力学、油气井管柱力学、岩石力学与破碎学等课程的教学工作。
指导研究生
硕士、博士研究生导师,指导硕士研究生120余 人,博士生21人。
承担科研课题
主持国家科技重大专项2项,国家自然科学基金2项,中石油集团公司重大项目1项。
获奖情况
中国石油和化学工业联合会科技进步一等奖2项、二等奖1项;
获国家科技成果奖(集体奖)1项;
黑龙江省科技进步二等奖1项,黑龙江省科技进步三等奖1项;
黑龙江省教委科技进步一等奖2项,黑龙江省教委科技进步二等奖3项;
吉林省科技进步二等奖2项;
大庆石油管理局科技进步一等奖1项,科技进步二等奖3项。
荣誉称号著作
[1]艾池.聚晶金刚石复合片钻头理论与实践.北京:石油工业出版社, 1996.
[2]张继红,艾池,曹广胜.石油工程专业英语.北京:石油工业出版社, 2009.08.
论文
[1] Hu C. Y., Wang F. J., Ai C., et al. An Improved New Convolutional Neural Network Method for Inverting the Pore Pressure in Oil Reservoir by Surface Vertical Deformation[J]. Lithosphere. 2021, 2021
[2] Li X. X., Liang Y. P., Luo Y. J., et al. Predicting Hydraulic Fracture Propagation Based on Maximum Energy Release Rate Theory with Consideration of T-Stress[J]. Fuel. 2020, 269
[3] Hu C. Y., Wang F. J., Ai C. A Model of Cement-Formation Interface Failure Length in Supercritical CO2-ECBM and Storage Injection Well Considering the Coal Swelling Effect under High Pressure[J]. Journal of Petroleum Exploration and Production Technology. 2019, 9(4): 2757-2767.
[4] Feng F. P., Huang R., Guo B. Y., et al. A New Method for Evaluating the Effectiveness of Hydraulic Fracturing in Tight Reservoirs[J]. Arabian Journal of Geosciences. 2019, 12(12)
[5] Zhang J., Ai C., Li Y. W., et al. Energy-Based Brittleness Index and Acoustic Emission Characteristics of Anisotropic Coal under Triaxial Stress Condition[J]. Rock Mechanics and Rock Engineering. 2018, 51(11): 3343-3360.
[6] Ai C., Li X. X., Zhang J., et al. Experimental Investigation of Propagation Mechanisms and Fracture Morphology for Coalbed Methane Reservoirs[J]. Petroleum Science. 2018, 15(4): 815-829.
[7] Feng F. P., Wang X. B., Guo B. Y., et al. Mathematical Model of Fracture Complexity Indicator in Multistage Hydraulic Fracturing[J]. Journal of Natural Gas Science and Engineering. 2017, 38: 39-49.
[8] Cui Z. H., Ai C., Lv L., et al. Effect of Pulse Pressure on Borehole Stability During Shear Swirling Flow Vibration Cementing[J]. Plos One. 2017, 12(11)
[9] Yang X. L., Ai C. Demulsification Performance and Mechanism of Demulsification of a Dendritic Polyamidoamine[J]. Chemistry and Technology of Fuels and Oils. 2016, 52(3): 306-309.
[10] Li Y. W., Jia D., Wang M., et al. Hydraulic Fracturing Model Featuring Initiation Beyond the Wellbore Wall for Directional Well in Coal Bed[J]. Journal of Geophysics and Engineering. 2016, 13(4): 536-548.
[11] Li Y. W., Jia D., Liu J., et al. The Calculation Method Based on the Equivalent Continuum for the Fracture Initiation Pressure of Fracturing of Coalbed Methane Well[J]. Journal of Petroleum Science and Engineering. 2016, 146: 909-920.
[12] Ai C., Zhang J., Li Y. W., et al. Estimation Criteria for Rock Brittleness Based on Energy Analysis During the Rupturing Process[J]. Rock Mechanics and Rock Engineering. 2016, 49(12): 4681-4698.
[13] Hu Chaoyang, Ai Chi, Tao Feiyu, et al, Optimization of Well Completion Method and Casing Design Parameters to Delay Casing Impairment Caused by Formation Slippage, in SPE/IADC Middle East Drilling Technology Conference and Exhibition, MEDT 2016, January 26, 2016 - January 28, 2016 vol. 2016-January, ed. Abu Dhabi, United arab emirates: Society of Petroleum Engineers (SPE), 2016.
[14] Hu Chaoyang, Ai Chi, Wang Fengjiao. Optimization of Casing Design Parameters to Mitigate Casing Failure Caused by Formation Slippage[J]. SDHM Structural Durability and Health Monitoring. 2018, 12(2): 115-128.
[15] Li Jun, Guo Boyun, Ai Chi, Analytical and Experimental Investigations of the Effect of Temperature Gradient on Rock Failure, in ASME 2012 International Mechanical Engineering Congress and Exposition, IMECE 2012, November 9, 2012 - November 15, 2012 vol. 6, PARTS A AND B ed. Houston, TX, United states: American Society of Mechanical Engineers (ASME), 2012, p. 1483-1489.
[16] Li Shibin, Ai Chi. Study on Water Invasion Law of Shale in Section of Casing Damage[J]. Tianranqi Gongye/Natural Gas Industry. 2004, 24(4): 47-49+7-8.
[17] Li Yuwei, Ai Chi, Liu Yazhen. A Calculation Model of the Net Pressure for Forming Map Cracking in Coalbed with Cleats During Hydraulic Fracturing Process[J]. Open Petroleum Engineering Journal. 2015, 8: 193-197.
[18] Li Yuwei, Ai Chi, Liu Yu, et al. The Breakdown Pressure Calculating Model for Open Hole Completion Cbm Well Hydraulic Fracturing[J]. Open Fuels and Energy Science Journal. 2014, 7(1): 12-19.
[19] Liu Xiushan, Ai Chi, Wang Xinqing. Value Intercalation Method of Wellbore Track[J]. Shi You Zuan Cai Gong Yi/Oil Drilling and Production Technology. 1997, 19(2): 11-14, 25.
[20] Shi Rui Xiang, Ai Chi, Zhao Wan Chun, et al, The Damage Mechanics Model of the Wellbore Surrounding Rock Based on Fractal Theory, in 3rd International Conference on Applied Mechanics, Materials and Manufacturing, ICAMMM 2013, August 24, 2013 - August 25, 2013 vol. 423-426, ed. Dalian, China: Trans Tech Publications Ltd, 2013, p. 1623-1626.
[21] Wang Feng, Ai Chi, Yuan Dan Dan, et al, Experimental Investigation of Emulsifying Viscosity Reduction of a New Viscosity Breaker, in 2014 International Conference on Electronic Engineering and Information Science, ICEEIS 2014, June 21, 2014 - June 22, 2014 vol. 981, ed. Harbin, China: Trans Tech Publications Ltd, 2014, p. 946-950.
[22] Wang Tingting, Ai Chi, Zhao Wanchun, et al. Study on Characteristics of Stress Field around the Crack-Tip of Volume Fracturing Based on Chaos Theory[J]. International Journal of Simulation: Systems, Science and Technology. 2016, 17(25)
[23] Yu Xiance, Guo Boyun, Ai Chi, et al, A Comparison between Multi-Fractured Horizontal and Fishbone Wells for Development of Low-Permeability Fields, in SPE/IATMI Asia Pacific Oil and Gas Conference and Exhibition 2009, APOGCE 09, August 4, 2009 - August 6, 2009 vol. 1, ed. Jakarta, Indonesia: Society of Petroleum Engineers, 2009, p. 64-74.
[24] Zhang Jinan, Wang Yinlong, Ai Chi, et al, Abhesion Mechanics Model of Horizontal Well Cement-Formation Interface, in 3rd International Conference on Information Computing and Applications, ICICA 2012, September 14, 2012 - September 16, 2012 vol. 308 CCIS, PART 2 ed. Chengde, China: Springer Verlag, 2012, p. 709-716.
[25] Zhang Zhiyong, Ai Chi, Zheng Hong, Study on the Mechanism of Casing Damage Due to Water Injection, in 1st International Conference on Energy and Environmental Protection, ICEEP 2012, June 23, 2012 - June 24, 2012 vol. 524-527, ed. Hohhot, China: Trans Tech Publications, 2012, p. 1602-1605.
[26] Zhao Wanchun, Ai Chi, Li Yuwei, et al. Study on Rockmass Deterioration and Changes of Porosity and Permeability in Double-Porosity Medium under Hydraulic Fracture Based on Damage Theory[J]. Yanshilixue Yu Gongcheng Xuebao/Chinese Journal of Rock Mechanics and Engineering. 2009, 28(SUPPL. 2): 3490-3496.
[27] Zhao Wanchun, Ai Chi, Zheng Dachun, The Damage Theory Model on Fluid-Solid-Heat Coupling of Reservoir under Process Injection, in 2010 International Conference on Applied Mechanics and Mechanical Engineering, ICAMME 2010, September 8, 2010 - September 9, 2010 vol. 29-32, ed. Changsha, China: Trans Tech Publications, 2010, p. 2053-2058.
[28] Zhao Wanchun, Sun Chengyan, Wang Chen, et al, Study Damage of Rock and Evolvement of Porosity and Permeability under Hydraulic Fracture in Ji Lin Oilfield, in Society of Petroleum Engineers - International Oil and Gas Conference and Exhibition in China 2010, IOGCEC vol. 4, ed: Society of Petroleum Engineers, 2010, p. 2763-2767.
[29] Ai Chi, Liu Yu, Li Yu Wei, et al, The Stress Calculation of Sidewall Rock in Hydraulic Fracturing Basing on Damage Theory, in 2013 2nd International Conference on Energy and Environmental Protection, ICEEP 2013, April 19, 2013 - April 21, 2013 vol. 734-737, ed. Guilin, China: Trans Tech Publications Ltd, 2013, p. 1493-1497.
[30] Ai Chi, Zhao Wanchun, Guo Boyun. Casing-Collapse Strength Reduction under Lateral Loads from Yielding Shales in the Daqing Oilfield[J]. SPE Drilling and Completion. 2008, 23(4): 348-352.
[31] Ai Chi, Zhao Wanchun, Guo Boyun. Mechanical Model and Computational Analysis of Casing Plastic Failure Underlateral Loading[J]. Yingyong Lixue Xuebao/Chinese Journal of Applied Mechanics. 2008, 25(3): 521-523.
[32] Feng Fuping, Ai Chi, Xu Haisu, et al. Research on the Condition Model of Drilling Fluid Non-Retention in Eccentric Annulus[J]. International Journal of Heat and Technology. 2015, 33(1): 9-16.
[33] Feng Fuping, Ai Chi, Yang Fengyu, et al. A Study on the Replacement Position of Laminar Flow in Eccentric Annulus at Retention Layer Boundaries[J]. Shiyou Xuebao/Acta Petrolei Sinica. 2010, 31(5): 585-862.
[34] Feng Fuping, Li Guoqing, Qi Yulong, et al. A Study on the Mechanism of Enhancing Cementing Quality of the Downhole Shear Swirling Flow Vibration Tool[J]. Energy Education Science and Technology Part A: Energy Science and Research. 2014, 32(5): 3277-3288.
[35] Feng Fuping, Yu Fahao, Ai Chi, et al. Research on the Modified Model for Steady Displacement Interface Shape in Inclined Wells with Eccentric Annuli[J]. Open Fuels and Energy Science Journal. 2014, 7(1): 1-8.
[36] Gong Yannian, Yin Jindan, Ai Chi, et al, Block Mechanism of Microclearance Block Liquid and Lifting Height Calculating, in 2012 International Conference on Frontiers of Advanced Materials and Engineering Technology, FAMET 2012, January 4, 2012 - January 5, 2012 vol. 430-432, ed. Xiamen, China: Trans Tech Publications, 2012, p. 1970-1973.
[37] Guo Boyun, Gao Deli, Ai Chi, et al, Critical Oil Rate and Well Productivity in Cold Production from Heavy-Oil Reservoirs, vol. 27, 1 ed: Society of Petroleum Engineers, 2012, p. 87-93.
[38] Guo Heng, Cao Jian, Ai Chi, et al. Study of the Relationship between Pdc Drilling Bit's Cutting Depth and Cutting Load[J]. Daqing Shiyou Xueyuan Xuebao/Journal of Daqing Petroleum Institute. 1997, 21(2): 23-25.
[39] Han Guang Zhi, Ai Chi, Applications of Mud Pulse Mwd/Lwd System in Bakken Formation, North Dakota, USA, in 2nd International Conference on Automatic Control and Mechatronic Engineering, ICACME 2013, June 21, 2013 - June 22, 2013 vol. 415, ed. Bangkok, Thailand: Trans Tech Publications Ltd, 2013, p. 672-676.
[40] Han Shujiang, Ai Chi, Sun Yuxue. Displaced Efficiency of Inclined Straight Well Cementation[J]. Daqing Shiyou Xueyuan Xuebao/Journal of Daqing Petroleum Institute. 1995, 19(2): 120-123.
[41]艾池,仇德智,张军,陶飞宇.页岩力学参数测试及脆性各向异性研究[J].断块油气田,2017,24(05):647-651.
[42]艾池,李晓璇,李玉伟,贾丹,张军.煤中弱面对煤岩抗拉强度影响的力学试验分析[J].中国煤炭地质,2017,29(02):53-56.
[43]艾池,高见,冯福平,黄芮,郑惠峰,王远航.低渗裂缝性储层注水井钻关泄压模拟[J].当代化工,2016,45(12):2845-2847.
[44]艾池,米洁翰,付虹,张军.封隔器间距对压裂管柱下入摩阻力的影响[J].天然气与石油,2016,34(05):56-59+9.
[45]艾池,米洁翰,夏乐,张军.致密储层压裂液返排技术研究[J].当代化工,2016,45(07):1597-1598+1601.
[46]艾池,严茂森,冯福平,吕德庆,张磊,于法浩.专用取套工具弧形扶正块参数优化设计[J].中州煤炭,2016(07):120-124.
[47]艾池,米洁翰,夏乐,张军.考虑壁面分维数的压裂液返排速度计算模型[J].中州煤炭,2016(04):111-114.
[48]艾池,刘亚珍,李玉伟,高长龙.嫩二段标志层套管损坏区进水域影响因素分析[J].特种油气藏,2015,22(06):129-132+148.
[49]艾池,胡超洋,崔月明.延缓大庆油田标准层套损的套管优选[J].石油钻探技术,2015,43(06):7-12.
[50]艾池,高长龙,李玉伟,徐乐,刘亚珍,张军.页岩储层的改进拉链式压裂裂缝间距优化[J].石油矿场机械,2015,44(08):21-25.
[51]艾池,徐海粟,冯福平,李静,李玉伟,赵万春.室内试验确定现场岩石研磨性的实用方法[J].长江大学学报(自科版),2015,12(23):46-50+5.
[52]艾池,高长龙,郝明,徐乐,李腾.特殊螺纹气密封性数值模拟[J].石油矿场机械,2015,44(07):1-4.
[53]艾池,张军,李玉伟,曾佳,高长龙.不同劈裂角度下煤岩抗拉强度理论计算与试验研究[J].煤矿安全,2015,46(07):20-23.
[54]艾池,于法浩,冯福平,赵恩远,刘玉喜.带封隔器的油套合压管柱油管临界排量计算[J].石油钻探技术,2014,42(01):81-85.
[55]艾池,赵慧志,郝明,李腾.热采固井技术研究[J].当代化工,2013,42(11):1580-1581.
[56]艾池,胡超洋,李玉伟,王风娇.灰色理论结合专家系统预测煤层气井压裂效果[J].数学的实践与认识,2013,43(20):99-104.
[57]艾池,李晗,郝明,赵慧志,李腾.顶替速度对粘砂套管水泥环胶结强度影响研究[J].科学技术与工程,2013,13(19):5600-5604.
[58]艾池,王剑楠,王树江,李全磊,郝明.粘砂套管砂粒分布对测井声波响应影响研究[J].科学技术与工程,2013,13(12):3246-3250.
[59]艾池,王银龙,李国庆,齐玉龙,崔志华,李晗.井下叶栅偏心块质量优化技术研究[J].科学技术与工程,2013,13(10):2666-2670.
[50]艾池,李静,李自平,张振成,陈顶峰.CO_2埋存井注入过程中水泥环应力完整性研究[J].科学技术与工程,2013,13(08):2057-2061.
[61]艾池,栗爽,李净然,白琳.煤岩储层渗透率动态变化模型[J].特种油气藏,2013,20(01):71-73+154.
[62]艾池,张永晖,赵万春,金春玉,段永强,张昌盛.压裂液返排过程中支撑剂回流规律研究[J].石油钻采工艺,2012,34(02):70-73.
[63]艾池,张东,任帅勤,马德成,金春玉.环空气泡融合特性对流体流动规律影响研究[J].石油地质与工程,2011,25(03):102-105.
[64]艾池,李正军,赵万春.压裂岩体微裂缝损伤演化的混沌特性研究[J].科学技术与工程,2011,11(09):2094-2096+2100.
[65]艾池,曲建芳,卜志丹,马德成.粘砂套管特性对声波幅度的影响研究[J].测井技术,2011,35(01):65-68.
[66]艾池,刘国勇,刘顺利,隋杨,赵万春.考虑渗流作用的套管错断口井壁围岩应力场分析[J].石油钻探技术,2011,39(01):40-43.
[67]艾池,尹金丹,罗云,胡绍斌,赵万春,杨勇.微间隙封堵液封堵机理及其上升高度计算[J].科学技术与工程,2010,10(23):5634-5636.
[68]艾池,刘国勇,冯福平.弹性限位扶正器变形量对套管居中度的影响[J].西部探矿工程,2010,22(02):88-91.
[69]艾池,史晓东.油水井取套过程中套铣筒摩擦阻力分析计算[J].力学与实践,2010,32(01):68-71.
[70]艾池,杨东梅.通过环空返速对比确定合理的携屑返速[J].西部探矿工程,2009,21(08):42-44.
[71]艾池,赵万春,郭柏云,杨东梅.重复压裂裂缝起裂角模型研究[J].石油钻采工艺,2009,31(04):89-93.
[72]艾池,卜志丹,赵万春,李强.用正交尺度小波网络方法预测固井质量[J].石油钻探技术,2008(06):56-58.
[73]艾池,王洪英,张亚范.长岭断陷深层气井岩石可钻性计算方法[J].天然气工业,2008(10):67-69+142.
[74]艾池,于洪金,金春玉,项春生.水泥环纤维体积分数对套管受力的影响[J].大庆石油学院学报,2008(05):38-40+124.
[75]艾池,赵万春,郭柏云.侧向载荷作用下的套管塑性破坏力学模型与计算分析[J].应用力学学报,2008(03):521-523+549.
[76]艾池,王洪英,毕开原.徐家围子火山岩研磨性对机械钻速的影响分析[J].西部探矿工程,2008(09):67-68.
[77]艾池,张晓光,赵万春,金春玉.裂缝诱导损伤力学模型研究[J].佳木斯大学学报(自然科学版),2008(05):627-629.
[78]艾池,杨勇,李天群.庆深气田气井固井水泥浆体系研究[J].钻井液与完井液,2008(02):37-39+86.
[79]艾池,赵万春,焦石.重复压裂裂缝周围应力场计算新方法[J].石油钻采工艺,2008(01):63-66.
[80]艾池,冯福平,李洪伟.地层压力预测技术现状及发展趋势[J].石油地质与工程,2007(06):71-73+76.
[81]艾池,盖伟涛,王黎明.钻柱在扭转、纵向振动下的疲劳寿命估算[J].大庆石油学院学报,2006(04):9-11+144.
[82]艾池,王臣,国郅,周金葵,张丽辉.葡北油田套管损坏规律[J].大庆石油学院学报,2003(02):23-24+129.
[83]艾池.套管损坏机理及理论模型与模拟计算[D].大庆石油学院,2003.
[84]艾池,李士斌.大庆油田泥岩浸水速度试验[J].石油钻采工艺,2002(04):1-3+82.
[85]艾池,饶永久,张凤民,胡胜国,刘洪新.泄油孔合理长度和数量的确定[J].大庆石油学院学报,2001(02):19-21+103.
[86]艾池,周荣星,王志祥,鄢福明,杨春丽.分隔式井下增压器的整体结构设计[J].大庆石油学院学报,2001(01):89-91+109.
[87]艾池,李士斌,周荣星,邹野,宗强.分隔式井下增压器主要结构参数的计算[J].大庆石油学院学报,2001(01):92-94+109-110.
[88]艾池,刘修善,王军,冯永江.井眼轨道设计的广义方程及其应用[J].大庆石油学院学报,1998(04):25-28+101.
[89]艾池,沈忠厚.围压下射流动压力分布规律的实验研究[J].石油钻探技术,1995(S1):6-7+26+84.
[90]艾池,初迎利,王林先.水力破岩最优射流压力实验研究[J].石油钻探技术,1995(02):24-25+31+69.
专利
[1]冯福平,黄芮,艾池,胡超洋,丛子渊,段永伟.一种确定破裂岩石裂缝面积的致密储层可压性评价方法[P]. CN109238854B,2021-03-26.
[2]艾池,张军,李晓璇,李玉伟,车明光,高睿.测试粗糙裂缝导流能力实验装置及测试评价方法[P]. CN107515183B,2019-11-01.
[3]冯福平,胡超洋,艾池,王胡振,雷扬,黄芮.水平井分段多簇压裂诱导应力计算方法[P]. CN107045582B,2019-10-25.
[4]冯福平,艾池,胡超洋,李玉伟,王轩滨,雷扬.体积压裂复杂缝网平均裂缝长度和等效裂缝条数确定方法[P]. CN106649963B,2019-10-01.
[5]艾池,张军,李晓璇,贾丹,薄云鹤,曾佳.测试三轴应力下变缝高分叉裂缝导流能力的装置[P]. CN107462510B,2019-09-27.
[6]冯福平,艾池,李清,张德平,韩旭,雷扬.体积压裂改造效果评价方法[P]. CN106408208B,2019-05-28.
[7]胡超洋,丛子渊,艾池,冯福平,严茂森,王凤娇.一种模拟套损过程的装置[P]. CN109681164A,2019-04-26.
[8]冯福平,艾池,胡超洋,雷扬,严茂森,黄芮.水平井分段多簇压裂各射孔簇破裂压力计算方法[P]. CN106979000B,2019-03-01.
[9]冯福平,黄芮,艾池,胡超洋,丛子渊,段永伟.一种确定破裂岩石裂缝面积的致密储层可压性评价方法[P]. CN109238854A,2019-01-18.
[10]冯福平,黄芮,艾池,胡超洋,段永伟,刘子玉.扫描确定破裂岩石裂缝面积的致密储层可压性评价方法[P]. CN109163970A,2019-01-08.
[11]艾池,张军,李晓璇,李玉伟,车明光,高睿.测试粗糙裂缝导流能力实验装置及测试评价方法[P]. CN107515183A,2017-12-26.
[12]艾池,张军,李晓璇,贾丹,薄云鹤,曾佳.测试三轴应力下变缝高分叉裂缝导流能力的装置[P]. CN107462510A,2017-12-12.
[13]冯福平,胡超洋,艾池,王胡振,雷扬,黄芮.水平井分段多簇压裂诱导应力计算方法[P]. CN107045582A,2017-08-15.
[14]冯福平,艾池,胡超洋,雷扬,严茂森,黄芮.水平井分段多簇压裂各射孔簇破裂压力计算方法[P]. CN106979000A,2017-07-25.
[15]冯福平,艾池,胡超洋,李玉伟,王轩滨,雷扬.体积压裂复杂缝网平均裂缝长度和等效裂缝条数确定方法[P]. CN106649963A,2017-05-10.
[16]冯福平,艾池,胡超洋,张德平,金春玉,雷扬.弯曲井段套管设计抗挤强度计算方法[P]. CN106599595A,2017-04-26.
[17]冯福平,艾池,李清,张德平,韩旭,雷扬.体积压裂改造效果评价方法[P]. CN106408208A,2017-02-15.
[18]冯福平,胡超洋,艾池,金春玉,王轩滨,韩旭.含天然裂缝的致密储层体积压裂树状随机缝网描述方法[P]. CN105512366A,2016-04-20.
[19]冯福平,胡超洋,艾池,李玉伟,韩旭,王轩滨.不含天然裂缝的致密储层体积压裂树状随机缝网描述方法[P]. CN105298464A,2016-02-03.
[20]冯福平,艾池,王轩滨,韩旭,胡超洋,金春玉.偏心环空注水泥附加量确定方法[P]. CN105257242A,2016-01-20.
[21]艾池,胡超洋,李玉伟,米浩瀚,张军,陶飞宇.储层压力变化诱发层间滑移的模拟实验装置及其实验方法[P]. CN105134197A,2015-12-09.
[22]艾池,郝明,李银朋,刘小娟,赵慧志,李腾.粘砂套管水泥胶结强度测试实验装置[P]. CN203035188U,2013-07-03.
[23]李玉伟,艾池,陶飞宇,张军,赵万春,顾海鹏.用于制备泥页岩岩石试件的装置及其制备方法[P]. CN104849120A,2015-08-19.
[24]冯福平,艾池,高见,严茂森,常雷,李清.欠平衡钻井破岩模拟实验装置及其模拟实验方法[P]. CN104763407A,2015-07-08.
[25]艾池,李玉伟,王婷婷,石瑞祥,李腾,袁伟伟.岩体外载形变与裂隙扩展动态测定装置[P]. CN203396653U,2014-01-15.
[26]李玉伟,张军,艾池,冯福平,高长龙,曾佳.含弱界面低强度岩石试样制备装置及其制备试样方法[P]. CN104406828A,2015-03-11.
[27]李玉伟,艾池,冯福平,王峰,张军,李清.用于制备含弱界面低强度岩石试样的切削工作台[P]. CN104316379A,2015-01-28.
[28]李玉伟,艾池,张军,史晓东,李银朋,陶飞宇.一种节理煤岩直接拉伸试验装置及试验方法[P]. CN104111197A,2014-10-22.
[29]艾池,李玉伟,张军,赵万春,柏明星,范家伟.节理煤岩切割岩样装置[P]. CN103837367A,2014-06-04.
[30]艾池,李玉伟,张军,高长龙,胡超洋,刘亚珍.节理煤岩干式取岩样装置及其取样方法[P]. CN103837368A,2014-06-04.
[31]冯福平,艾池,于法浩,常雷,崔志华,徐海粟.带封隔器的环空加砂压裂管内临界排量确定方法[P]. CN103696750A,2014-04-02.
[32]冯福平,艾池,王峰,李腾,张德平,徐海粟. CO2注气井泄压对封隔器胶件性能的影响测试方法[P]. CN103604738A,2014-02-26.
