职 务:实验室与设备管理处副处长
职 称:教授
导师 资格:博导、硕导
所属 部门:实验室与设备管理处
学科 专业:油气田开发工程
研究 方向:提高油气采收率、油气田化学、储层保护与改造
联系 方式:tiger-jia@163.com; jiahuswpu@swpu.edu.cn
联系 地址:610500 皇家永利成都市新都区西南石油大学国家重点实验室B307(左)
二级教授,博士生导师,国家高层次人才特殊支持计划青年拔尖人才(2020年)、皇家永利天府科技菁英(2019年)。获中国石油与化学工业联合会青年科技突出贡献奖(2021年)、霍英东教育基金会基金奖励(2020年)、皇家永利杰出青年科技人才(2018年)等荣誉称号。主要从事提高油气采收率、油气田化学、储层保护与改造领域研究,在流场表征与调控、控水堵水、气驱防窜、暂堵控漏、井筒封堵和化学暂堵方面取得了系列创新成果,丰富了石油工程封堵学理论体系。是全国高校黄大年式教师团队骨干,油气藏地质及开发工程全国重点实验室固定研究人员。主持国家自然科学基金、皇家永利杰出青年基金、中国石油科技创新基金等纵向项目和石油公司委托科技攻关项目50余项。获省部级和社会力量一等奖4项(排1、1、6、6)、二等奖4项(排1、1、2、3)。在石油工程顶级期刊《石油勘探与开发》《SPE Journal》《SPE Production & Operations》等上发表论文90余篇,其中第1/通讯作者76篇,SCI检索49篇,1篇入选领跑者F5000-中国精品科技期刊顶尖论文,授权发明专利20件。曾任中国石油学会青年工作委员会第一届委员,中国能源学会专委会副主任。担任《石油勘探与开发》编委,《天然气工业》《Petroleum》《油气地质与采收率》青年编委。主讲《油藏工程》《油层物理》2门本科生课程。指导多名研究生曾获得皇家永利国际互联网+大学生创新创业大赛金奖、中国石油工程设计大赛一等奖、成渝地区双城经济圈留学生创新创业大赛二等奖等重要学术竞赛奖励十余次。
●2002.09-2006.06 江汉石油学院,石油工程,学士
●2006.09-2009.06 西南石油大学,油气井工程,硕士
●2009.09-2012.06 西南石油大学,油气田开发工程,博士
●2012.09-2013.02 美国雪佛龙公司川东北项目部,实习工程师
●2012.07-2014.09 西南石油大学,讲师
●2015.04-2016.04 美国得州理工大学,博士后
●2014.10-2018.11 西南石油大学,副教授
●2018.12-至今 西南石油大学,教授
●2024.07-至今 西南石油大学实验室与设备管理处,副处长
●国家级人才项目,非常规油气藏提高采收率,2020/10-2023/10,负责人
●国家自然科学基金原创探索计划项目,5215000105,低渗透储层就地生成气水分离膜屏障实现天然气井选择性堵水研究,2023/01-2025/12,负责人
●霍英东教育基金会第十七届高等院校青年教师基金,171043,离子液体纳米复合凝胶的构筑及堵水堵漏机理研究,2020/02-2023/02,负责人
●皇家永利杰出青年基金项目,2019JDJQ0036,油气钻采用纳米复合凝胶的构效关系及其封堵适应性研究,2019/01-2021/12,负责人
●皇家永利区域创新合作项目,2020YFQ0036,准噶尔盆地南缘深层油气藏钻完井离子液体凝胶堵漏机理研究,2020/01-2023/01,负责人
●国家科技重大专项,2016ZX050048-007,致密油藏气驱封窜工艺评价测试项目,2020/05-2020/12,负责人
●国家科技重大专项,2016ZX05027003-007,深层低渗致密储层解堵增产-高密度测试液-抗盐型固化水完井液技术测试项目,2016/01-2020/12,负责人
●皇家永利杰出青年学术技术带头人培育基金,2015JQO038,注空气开发致密油藏气体-原油体系非平衡扩散传质行为及预测模型,2015/01-2017/12,负责人
●中国石油科技创新基金,2017D-5007-0202,基于化学封堵缝网调控的致密油藏注空气吞吐开采潜力研究,2017/10-2019/10,负责人
●中国石油科技创新基金,2013D-5006-0201,注空气原油氧化自燃机理研究,2013/10-2015/10,负责人
●横向协作项目,程海6区块水平井控水稳油技术研究与应用,2023/12-2024/12,负责人
●横向协作项目,稠油油藏水平井选择性堵水技术研究,2023/10-2024/12,负责人
●横向协作项目,水驱油藏渗流场表征评价与重构研究,2023/09-2024/12,负责人
●横向协作项目,子长油田余家坪区长2油藏水驱渗流场动态演化规律与调控方法研究,2023/09-2024/12,负责人
●横向协作项目,定边长4+5油藏注采方式优化与控水稳油对策研究,2023/09-2024/12,负责人
●横向协作项目,下寺湾采油厂下组合致密油藏低阻力增渗化学驱(吞吐)提高采收率研究,2023/09-2024/12,负责人
●横向协作项目,干柴沟页岩油可动性及渗流特征测试,2023/10-2024/01,负责人
●横向协作项目,砾岩油藏CO2驱立体开发井网优化设计,2023/06-2024/12,负责人
●横向协作项目,凉高山组页岩油压前蓄能参数优化数值模拟分析,2023/02-2023/07,负责人
●横向协作项目,修井作业过程中的暂堵压井液体系研究-暂堵型修井液体系研究,2023/08-2023/11,负责人
●横向协作项目,注气油藏注采井不动管柱环空带压治理技术研究,2022/10-2023/06,负责人
●横向协作项目,高强度液流转向剂优选与性能评价,2022//08-2023/08,负责人
●横向协作项目,顺北二区储层伤害机理及储层保护钻井液技术优化研究,2021/11-2022/12,负责人
●横向协作项目,文昌19-1油田非均质储层选择性化学堵水适应性研究,2020/10-2021/10,负责人
●横向协作项目,白239区水平井控水见效规律研究,2020/08-2020/12,负责人
●横向协作项目,弹性液体胶塞暂堵压井技术服务,2020/05-2020/06,负责人
●横向协作项目,复合调驱体系评价与技术服务,2019/07-2020/07,主持
●横向协作项目,无自由水弹脆性压井冻胶研究与技术服务,2019/03-2019/11,主持
●横向协作项目,下古暂堵压井液现场试验及工艺参数优化研究,2018/06-2019/10,主持
●横向协作项目,下古碳酸盐岩储层暂堵压井液研究及性能评价,2017/06-2018/08,负责人
●横向协作项目,低压储层降低漏失修井液研发与试验,2018/05-2018/12,主持
●横向协作项目,凝胶防漏堵漏技术研究—高粘度凝胶段塞技术实验评价与优化,2018/03-2018/11,负责人
●横向协作项目,塔中北坡高压气层钻井液与固井配套技术研究—裂缝型地层凝胶延缓漏失实验评价,2017/06-2018/12,负责人
●横向协作项目,碎屑岩凝析气藏修完井储层保护技术优选及评价,2015/12-2016/10,负责人
(1)科研获奖
●中国石油和化学工业联合会科技进步一等奖,复杂工况油气井化学暂堵高效复产增产关键技术及应用,排名1,2022
●中国石油和化工自动化应用协会科技进步一等奖,复杂油气藏高效化学暂堵井下作业技术创新与工业应用,排名1,2022
●天津市科技进步二等奖,复杂断块油田提高采收率深部调驱关键工艺技术创新与推广,排名2,2015
●新疆自治区科技进步二等奖,7000m超深油井井下工作液体系研发与应用,排名3,2022
●中国石油和化学工业联合会科技进步二等奖,多压力系统复杂油气藏安全高效井下作业关键技术与工业应用,排名1,2020
●中国石油和化工自动化应用协会科技进步二等奖,多压力层系油气井暂堵控漏关键技术及规模应用,排名1,2018
●中国石油和化工自动化应用协会科技进步一等奖,深层碳酸盐岩储层酸压关键技术与工业化应用,排名6,2022
●中国石油和化工自动化行业技术发明一等奖,页岩气藏水平井缝网压裂关键技术与规模应用,排名6,2021
(2)荣誉称号
●中组部青年拔尖人才,2020
●皇家永利天府科技菁英,2019
●霍英东教育基金会基金奖励,2020
●皇家永利杰出青年科技人才,2018
●中国石油与化学工业联合会青年科技突出贡献奖,2021
●西南石油大学第二届教职工“飞翔奖”科技新秀奖,2020
●首届中国高校矿业石油与安全工程领域优秀青年科技人才提名,2015
●皇家永利优秀博士学位论文,2012
●皇家永利优秀博士毕业生,2012
●西南石油大学第二届学生“飞翔奖”学术科技奖,2011
(3)学术论文
●贾虎,张瑞,罗宪波,等.高倍数水驱砂岩中原油黏度、岩心润湿性时变规律核磁共振实验[J].石油勘探与开发,2024,51(1):DOI:10.11698/PED.20230069.
●贾虎,何威,牛骋程.磷酸盐完井液高温腐蚀行为及膜转化缓蚀新方法[J].石油勘探与开发,2023,50(6):1307-1317.
●贾虎,代昌楼,李三喜,等.一种耐高温密度可调的柔性胶粒新型完井液[J].天然气工业,2022,42(12):106-116
●贾虎,张瑞,黎棚武.电磁场?渗流场耦合作用下离子液体多孔介质流动模型[J].力学学报,2021,53(8):2214-2224.
●张瑞,贾虎.基于多变量时间序列及向量自回归机器学习模型的水驱油藏产量预测方法[J].石油勘探与开发,2021,48(1):175-184.
●贾虎,邓力珲.基于流线聚类人工智能方法的水驱油藏流场识别[J].石油勘探与开发,2018,45(2):312-319.
●贾虎,陈昊,陈波.弹性液体胶塞修井防漏机理及应用[J].石油学报,2018,39(3):349-356.
●贾虎,吴晓虎.考虑相态变化的凝析气藏压井液漏失机理与产能恢复[J].石油勘探与开发,2017,(4):622-629.
●贾虎,赵金洲,杨怀军,等.轻质油藏空气驱机理数值模拟[J].石油勘探与开发,2014,41(2):215-222.
●Jia H,Li P W,and Zhang Y F. Polymer gel for water shutoff in complex oil and gas reservoirs:mechanisms,simulation,and decision-making[J].SPE Journal,2024, 29(01):243-259.
●Jia H,Niu C C,Liang W L,et al. High-Density solid-free flexible microgel fluid loss pill in high-temperature and high-pressure reservoirs:curing mechanism and working performance[J]. SPE Journal,2023,28(3):917-933.
●Jia H,Kang Z,Li Z J,et al. The potential of ultrahigh strength gel through novel multistage reinforcement method for sealing operations in medium to ultralow temperature reservoirs[J]. SPE Journal,2022,27(4):2145-2160.
●Jia H,Niu C C,Dai C L. Solid-Free flexible colloidal completion fluid with variable density for gas well completion in high-temperature and high-pressure reservoirs:experimental study and pilot test[J]. SPE Journal,2022,27(1):186-203.
●Jia H,Chen H,Li S X,et al. Development of a highly elastic composite gel through novel polymer intercalation crosslinking method for wellbore temporary plugging in high-temperature reservoirs[J]. SPE Journal,2020,25(6):2853-2866.
●Jia H,Yang X Y,Zhao J Z. Development of a novel in-situ generated foamed gel as temporary plugging agent used for well workover:affecting factors and working performance[J]. SPE Journal,2019,24(4):1757-1776.
●Jia H,Hu Y X,Zhao S J,et al. The Feasibility for Potassium-Based Phosphate Brines To Serve as High-Density Solid-Free Well-Completion Fluids in High-Temperature/High-Pressure Formations[J]. SPE Journal,2019,24(5):2033-2046.
●Kang Z,Jia H,Li Z G,et al. Comprehensive evaluation of chemical breakers for multistage network ultra-high strength gel[J]. Petroleum Science,2023,20:2864-2878.
●Jia H and Chen H. The potential of using cr3+/salt-tolerant polymer gel for well workover in low-temperature reservoir:laboratory investigation and pilot test[J]. SPE Production & Operations,2018,33(4):569-582.
●Jia H and Ren Q. Evidence of the gelation acceleration mechanism of hpam gel with ammonium salt at ultralow temperature by sem study[J]. SPE Production & Operations,2016,31(3):238-246.
●Jia H,Chen H,Guo S S. Fluid loss control mechanism of using polymer gel pill based on multi-crosslinking during overbalanced well workover and completion[J]. Fuel,2017,210:207-216.
●Jia H,Kang Z,Li Z. Using 1,2 dimethylimidazole to improve gel thermalstability for wellbore plugging in ultra-high temperature fractured reservoirs[J]. Journal of Dispersion Science and Technology,2023,44(5):852-864.
●Kang Z,Liu Y,Jia Hu,et al. Progress and prospects of in-situ polymer gels for sealing operation in wellbore and near-well zone[J]. Energy & Fuels,2024(in press),Manuscript ID:ef-2023-043829.
●Kang Z,Jia H,Liu S Q,et al. Improved understanding ultra-high strength gel for sealing operations:gelation kinetics and mechanism[J]. Journal of Dispersion Science and Technology,2023:https://doi.org/10.1080/01932691.2023.2228909.
●Jia H,Wu J,Wu S,et al. New insights into the DPR mechanism of elastic energy released by polymer gel for enhanced oil recovery[J]. Petroleum,2022.doi.org/10.1016/j.petlm.2022.08.002.
●Jia H,Li P,Lv W,et al. Application of fuzzy comprehensive evaluation method to assess effect of conformance control treatments on water-injection wells[J] .Petroleum,2022.doi.org/10.1016/j.petlm.2022.04.006.
●Jia H,Kang Z,Li S X,et al. Thermal degradation behavior of seawater based temporary plugging gel crosslinked by polyethyleneimine for fluid loss control in gas well:kinetics study and degradation prediction[J]. Journal of Dispersion Science and Technology,2021,42(9):1299-1310.
●Jia H,Chen S H,Zhou Z M. Strength-enhanced nanocomposite foamed gel as a temporary wellbore plugging fluid:Formulation design and working performance[J]. Journal of Dispersion Science and Technology,2021,42(8):1249-1258.
●Zhang R,Jia H. Method to generate random element equivalent core models based on the NMR T2 spectrum for waterflooding in tight sandstone[J]. ACS omega,2021,6(50):34783-34795.
●Jia H,Kang Z,Zhu J,et al. High density bromide-based nanocomposite gel for temporary plugging in fractured reservoirs with multi-pressure systems[J]. Journal of Petroleum Science and Engineering,205(2021):108778.
●Jia H,Niu C C,Yang X Y. High-strength nanocomposite gel for temporary plugging wellbore:from laboratory investigation to pilot test[J]. Journal of Petroleum Science and Engineering,2020(191):107214.
●Jia H,Xie D S,Kang Z. Secondary surface modified laponite-based nanocomposite hydrogel for gas shutoff in wellbore[J]. Journal of Petroleum Science and Engineering,2020(191):107116.
●Jia H,Yang X Y,Li S X,et al. Nanocomposite gel of high-strength and degradability for temporary plugging in ultralow-pressure fracture reservoirs[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2020(585):124108.
●Jia H,Niu C C,Hu Y X. The potential study of ultra-high density heteropolysate solid free brine as well completion fluid for deep reservoir development[J].Journal of Natural Gas Science and Engineering,2020(84):103638.
●Jia H,Deng L H. Non-equilibrium 3-D simulator applied to air injection EOR in light oil reservoirs[J]. Journal of Petroleum Science and Engineering,2018,168:310-329.
●Jia H,Chen H. Using DSC technique to investigate the non-isothermal gelation kinetics of the multi-crosslinked Chromium acetate(Cr3+)-Polyethyleneimine(PEI)-Polymer gel sealant[J]. Journal of Petroleum Science and Engineering,2018,165:105-113.
●Jia H,Yang X Y. Environmental and strength-enhanced nano-silica based composite gel for well temporary plugging in high-temperature reservoirs[J]. Asia-Pacific Journal of Chemical Engineering,2018,14:e2270.
●Jia H,Sheng J J. Simulation study of huff-n-puff air injection for enhanced oil recovery in shale oil reservoirs[J]. Petroleum,2018,4(1):7-14.
●Jia H. Effect of reservoir heterogeneity on air injection performance in a light oil reservoir[J]. Petroleum,2018,4(1):15-24.
●Jia H,Sheng J J. Discussion of the feasibility of air injection for enhanced oil recovery in shale oil reservoirs[J]. Petroleum,2017,3(2):249-257.
●Jia H,Sheng J J. Numerical modeling on air injection in a light oil reservoir:Recovery mechanism and scheme optimization[J]. Fuel,2016,172:70-80.
●Jia H,Liu P G,Pu W F,et al. In situ catalytic upgrading of heavy crude oil through low-temperature oxidation[J]. Petroleum Science,2016,13(3):476-488.
●Pu W F,Pang S S,Jia H. Using DSC/TG/DTA techniques to re-evaluate the effect of clays on crude oil oxidation kinetics[J]. Journal of Petroleum Science and Engineering,2015,134:123-130.
●Jia H,Ren Q,Pu W F,et al. Swelling mechanism investigation of microgel with double-cross-linking structures[J]. Energy Fuels,2014,28(11):6735-6744.
●Jia H,Ni J H,Pu W F,et al. New view on the oxidation mechanisms of crude oil through combined thermal analysis methods[J]. Journal of Thermal Analysis and Calorimetry,2014,118:1707-1714.
●Ren Q,Jia H,Yu D,et al. New insights into phenol-formaldehyde‐based gel systems with ammonium salt for low-temperature reservoirs[J]. Journal of Applied Polymer Science,2014,DOI:10.1002/app.40657.
●Ni J H,Jia H,Pu W F,et al. Thermal kinetics study of light oil oxidation using TG/DTG techniques[J]. Journal of Thermal Analysis and Calorimetry,2014,117(3):1349-1355.
●Jia H,Zhao J Z,Jin F Y,et al. New Insights into the gelation behavior of polyethyleneimine cross-linking partially hydrolyzed polyacrylamide gels[J]. Industrial and Engineering Chemistry Research,2012,51(38):12155-12166.
●Jia H,Zhao J Z,Pu W F,et al. Thermal study on light crude oil for application of high-pressure air injection (HPAI) process by TG/DTG and DTA Tests[J]. Energy Fuels,2012,26(3):1575-1584.
●Jia H,Zhao J Z,Pu W F,et al. Laboratory investigation on the feasibility of light-oil autoignition for application of the high-pressure air injection (HPAI) process[J]. Energy Fuels,2012,26(9):5638-5645.
●Jia H,Zhao J Z,Pu W F,et al. The influence of clay minerals types on the oxidation thermokinetics of crude Oil[J]. Energy Sources,Part A:Recovery,Utilization and Environmental Effects,2012,34(10):877-886.
●Zhao J Z,Jia H,Pu W F,et al. Sensitivity studies on the oxidation behavior of crude oil in porous media[J]. Energy Fuels,2012,26(11):6815-6823.
●Jia H,Pu W F,Zhao J Z,et al .Experimental investigation of the novel phenol-formaldehyde cross-linking HPAM gel system:based on the secondary cross-linking method of organic cross-linkers and its gelation performance study after flowing through porous media[J]. Energy Fuels,2011,25(2):727-736.
●Zhao J Z,Jia H,Pu W F,et al. Influences of fracture aperture on the water-shutoff performance of polyethyleneimine cross-linking partially hydrolyzed polyacrylamide gels in hydraulic fractured reservoirs[J]. Energy Fuels,2011,25(6):2616-2624.
●Jia H,Pu W F,Zhao J Z,et al. Research on the gelation performance of low toxic PEI cross-linking PHPAM gel systems as water shutoff agents in low temperature reservoirs[J]. Industrial Engineering Chemistry Research,2010,49(20):9618-9624.
●贾虎,张雨霏,黎棚武,等.气井化学控水研究进展与挑战及对策探析[J].西南石油大学学报(自然科学版),2024(in press).
●高伟,范胜,齐彪,代昌楼,贾虎,等.碳酸盐岩储层高酸溶多级架桥暂堵型钻井完井液体系[J].钻井液与完井液,2024(in press).
●刘岳龙,贾虎,柳思齐.一种新型体膨型热固复合树脂封堵剂[J].钻采工艺,2024(in press).
●万小进,黎棚武,吴绍伟,彭东宇,程利民,贾虎.海上高含水大液量水平井凝胶堵水数值模拟[J].断块油气田,2023,30(3):466-474.
●康红兵,牛骋程,贾虎,等.顺北油田抗超高温柔性胶粒修井液[J].钻井液与完井液,2021,38(4):525-530.
●贾虎,杨欣雨,李三喜,等.双交联型泡沫凝胶的制备及其暂堵压井防漏机理[J].钻井液与完井液,2019,36(3):384-390.
●李三喜,贾虎,吴晓虎.压井液漏失对气井井筒储集效应的影响研究[J].钻采工艺,2019,42(5):12-15.
●贾虎,赵金洲,廖然,等.气体压迫多孔介质中聚合物凝胶行为[J].中国石油大学学报(自然科学版),2013,37(2):146-152.
●贾虎,蒲万芬.有机凝胶控水及堵水技术研究[J].西南石油大学学报(自然科学版),2013,(6):141-152.
●贾虎,杨宪民.东海地区低孔低渗透气田完井液优化技术[J].天然气工业,2010,30(9):60-64.
●贾虎,蒲万芬,赵金洲,等.裂缝性油藏控水堵水方法研究与应用[J].地质科技情报,2010,29(5):62-70.
●贾虎,杨宪民.固化水工作液在压井修井过程中的成功应用[J].钻井液与完井液,2007,24(S):115-117.
(4)授权发明专利
●贾虎,周子力,张瑞.高倍数水驱岩心油水相对渗透率曲线测量装置及方法:20221 1382197.0[P].2024-02-09.
●贾虎,周子力,代杨,等.基于CT扫描建立三维非均质等效岩心模型的方法:2023105408459[P]. 2024-01-11.
●贾虎,黎棚武,张雨菲,等.基于累积效应的油井化学堵水性能室内评价方法:202210294524.0[P].2024-02-26.
●牛骋程,贾虎,何威. 竞争交联型高密度抗盐固化水微凝胶暂堵剂及其制备方法:2023 1 0126732.4[P].2024-02-20.
●贾虎,张瑞,黎棚武,等.基于核磁共振T2谱建立随机单元等效岩心模型的方法:2021107158035[P]. 2023-11-22.
●贾虎,高茂斐,柳思奇,等.一种断缝体油藏物理模型的制作方法和实验方法:202111124690.8[P]. 2023-10-24.
●贾虎,代昌楼,牛骋程.一种抗超高温180℃增粘型完井液与修井液:202011512785.2[P]. 2023-03-17.
●贾虎,牛骋程,代昌楼.一种抗超高温180℃变密度无固相增粘型完井液与修井液:202011512787.1[P]. 2023-03-10.
●贾虎,邓力珲,张瑞,等.基于流场诊断的水驱油藏渗流场可视化表征与评价方法:2019106356050[P]. 2022-04-22.
●贾虎,邓力珲,张瑞,等.一种基于向量自回归模型的水驱油藏渗流场评价方法:2019106361311[P]. 2022-04-22.
●贾虎,邓力珲.低渗透油藏空气驱数值模拟方法及装置:201710401892.X[P]. 2020-09-22.
●贾虎,邓力珲.水驱流场生产方法及装置:2017110853042[P]. 2019-07-26.
●贾虎,康正,徐一彬,等.一种基于离子液体胶塞的井筒隔离方法:202010924483.X[P]. 2022-06-21.
●贾虎,康正,徐一彬,等.咪唑物增强型抗超高温液体胶塞及其成胶测试改进方法:202110205061.1[P]. 2022-03-25.
●贾虎,陈生怀,巨亚峰,等.一种降漏失柔性胶粒洗井液的制备及其应用:201910590238.7[P]. 2021-12-21.
●贾虎,杨欣雨,赵金洲,等.一种多孔凝胶封堵剂、其制备方法及应用:2019107083525[P]. 2021-12-10.
●贾虎,陈昊.一种压井液及其制备方法、应用:201610972574.4[P]. 2019-10-08.
●贾虎,蒲万芬,任强.一种用于低温油藏快速成胶的酚醛弱凝胶调驱剂:201510232844.3[P]. 2018-04-20.
●贾虎,任强,蒲万芬,等.一种耐温耐盐高温自交联就地聚合堵水凝胶:201510004908.4[P]. 2017-10-10.
●贾虎,蒲万芬,赵金洲,等.一种用于油井堵水的新型选择性堵水剂:201110239167.X[P]. 2012-09-12.
●提高油气采收率方法:油藏流场表征与调堵防窜、蓄能压裂压驱、非常规油气藏提高采收率
●储层保护与增产措施:储层损害表征、完井液与修井液、液体胶塞、纳米流体等增产工作液
为国家级高层次人才科研团队,是“油气藏地质及开发工程全国重点实验室”储层改造基础理论及关键技术、提高采收率基础理论及配套技术研究团队重要力量。科研经费充足,提供具有竞争力的科研补助、实习和推荐就业机会。欢迎有志者报考课题组硕士生、博士生和博士后,优秀博士可择优推荐留校任教。