职 称:特聘研究员
导师 资格:博士生导师
所属 部门:油气田开发工程研究所
学科 专业:油气田开发工程
研究 方向:CO2矿化与封存、H2原地生产与地下储氢、油气藏渗流理论与应用
联系 方式:kouzuhao@hotmail.com
联系 地址:610500 成都市新都区新都大道85号西南石油大学
寇祖豪,四川南充人,国家海外高层次青年人才,怀俄明大学博士,哥伦比亚大学博士后,2025年3月起在西南石油大学石油与天然气工程学院任教。
主要从事CO2矿化与封存、H2原地生产与地下储氢、油气藏渗流理论与应用等方面的研究工作。主持国家海外高层次青年人才项目、国家科技重大专项任务、教育部“春晖计划”合作科研项目、全国重点实验室开放基金等项目多项,主研美国能源部碳封存示范性项目、国家重点研发计划“政府间国际科技创新合作”重点专项、四川省重点研发(产业链)项目、国家自然科学基金面上项目等项目多项。以第一或通讯作者在《SPE Journal》《Journal of Geophysical Research:Solid Earth》《Renewable Energy》《Journal of Hydrology》等期刊发表SCI论文20余篇(中科院一区12篇),其中1篇ESI热点论文,3篇ESI高被引论文,单篇论文最高引用超150次,受邀在SPE年度技术大会(SPE ATCE)、AGU年会(AGU Annual Meeting)、AIChE年会(AIChE Annual Meeting)等国际会议上作报告10余次。
担任SCI期刊《Journal of Hydrology》、《SPE Journal》、《Geoenergy Science and Engineering》副主编及多本SCI期刊客座编辑或编委,AGU2023年会(AGU Annual Meeting)、InterPore2024、InterPore2025会议分会场主席,SPE论文竞赛全球总决赛评委(2024),SPE国际技术奖评委会委员,VinFuture Prize提名专家,荣获SPE区域储层评价奖(2025)、TWA能源影响人物奖(2025)、SPE区域油藏描述与动态奖(2024)、SPE论文竞赛洛基山赛区冠军(2022),Advances in Geo-Energy Research优秀国际青年编委(2022),美国机械工程师协会ASME杰出审稿人(2020)等称号。
●2011.09-2015.07 西南石油大学,石油工程,学士
●2015.09-2018.06 西南石油大学,油气田开发工程,硕士
●2018.08-2022.08 怀俄明大学(美国拉勒米),化学工程,博士
●2022.09-2023.06 怀俄明大学(美国拉勒米),助理研究员
●2023.07-2025.01 哥伦比亚大学(美国纽约),博士后研究员
●2025.03-2025.12 西南石油大学石油与天然气工程学院,讲师
●2026.01-至今 西南石油大学石油与天然气工程学院,特聘研究员
●国家海外高层次青年人才项目,CO2地质封存多相多尺度渗流力学,2026/01-2028/12,主持
●国家科技重大专项任务,2025ZD1406804,氢气地下储存多组分-多尺度-多相运移机理,2025/07-2030/12,主持
●教育部“春晖计划”合作科研项目,HZKY20220195,表面修饰中空碳纳米纤维捕集二氧化碳及机理研究,2023/05-2025/05,主持
●油气藏地质及开发工程全国重点实验室开放基金,PLN2023-01,储层裂缝-基质双孔系统溶质传输规律研究,2023/10-2025/09,主持
●四川省重点研发项目(产业链),2025YFCY0014,废弃气藏高效储氢与安全调控关键技术及应用示范,2025/10-2028/09,技术负责人
●国家重点研发计划“政府间国际科技创新合作”重点专项,2023YFE0120700,页岩油藏CO2驱油协同碳封存关键理论与方法研究,2023/12-2025/11,主研
●美国能源部,Pore-Confinement Effects on Mineral Crystallization Behaviors in Geologic Multiphase Flow Systems,2025/01-2029/12,主研
●美国能源部,Center for Mechanistic Control of Water-Hydrocarbon-Rock Interactions in Unconventional and Tight Oil Formations(CMC-UF),2022/08-2024/07,主研
●美国能源部,Accelerating CCUS Commercialization and Deployment at Dry Fork Power Station and the Wyoming Integrated Test Center,2021/10-2023/09,主研
●美国能源部,CarbonSAFE Wyoming:Commercial-Scale Carbon Storage Complex Feasibility Study at Dry Fork Station,Wyoming,2018/09-2021/01,主研
●Qiu Zhong Wei基金会研究项目,Towards Sustainable in-situ Recovery in Deep Hard Rock Critical Minerals Deposits,2023/10-2024/10,主研
●国家自然科学基金面上项目,51304165,基于高精度边界元法的多尺度多机制复杂缝网页岩气藏压裂水平井动态模拟,2018/01-2021/12,主研
●十三五国家科技重大专项,2016ZX05062002-004,页岩气流动机制与动态分析方法研究,2016/01-2020/12,主研
●中石油新疆油田分公司,基于井口压力-流量监测数据的压裂裂缝参数解释(试验检验),2025/10-2027/06,第二负责人
●中石化西南油气分公司,綦江多类型页岩气渗流机理实验分析,2025/08-2026/02,第二负责人
●中石油长庆油田分公司,桃2区块下古气井生产动态分析及指标预测,2017/09-2018/05,主研
(1)期刊论文(*为通讯作者)
●KOU Z H,HOWARD J,TERRY O,et al. Link between enhanced pore surface relaxivity and mineral alteration in basalts[J]. Journal of Geophysical Research:Solid Earth,2025,130(5):e2025JB031227. (SCI)
●ZHAO Y L,BAI H S,KOU Z H*,et al. Unveil the influence of porous media heterogeneity on fluid flow and solute transport[J]. Gas Science and Engineering,2025,138:205601. (SCI)
●ZHAO Y L,TANG Y S,KOU Z H*,et al. A high-efficient method to upscale H2 migration within heterogeneous saline aquifers[J]. Journal of Energy Storage,2024,94:112512. (SCI)
●KOU Z H,XIN Y,WANG H,et al. Exploring CO2 storage with impurities in deep saline aquifers through computational experiments[J]. Renewable Energy,2024,223:120085. (SCI)
●WANG H,XIN Y C,KOU Z H*,et al. Unveil the role of engineering parameters on hydrogen recovery in deep saline aquifer,Rock Springs Uplift Wyoming[J]. Renewable Energy,2024,225:120261. (SCI)
●JI Z M,WANG H,WANG M Y,LV W F,WANG S C,KOU Z H*,et al. Experimental and modeling study of CO2 solubility in formation brines at in-situ conditions[J]. Journal of Cleaner Production,2024,438:140840. (SCI)
●KOU Z H,WANG H,ALVARADO V,et al. Effects of carbonic acid-rock interactions on CO2/brine multiphase flow properties in the Upper Minnelusa Sandstones[J]. SPE Journal,2023,28(2):754-767. (SCI)
●WANG H,XIN Y C,KOU Z H*,et al. Numerical study of the efficiency of underground hydrogen storage in deep saline aquifers,rock springs uplift,Wyoming[J]. Journal of Cleaner Production,2023,342:127808. (SCI)
●GUO T L,KOU Z H*,ZHAO Y L,et al. Role of gas multiple transport mechanisms and fracture network heterogeneity on the performance of hydraulic fractured multiwell-pad in unconventional reservoirs[J]. Fuel,2023,342:127808. (SCI)
●WANG H,KOU Z H*,JI Z M,et al. Investigation of enhanced CO2 storage in deep saline aquifers by WAG and brine extraction in the Minnelusa sandstone,Wyoming[J]. Energy,2023,365:126379. (SCI)
●REN D Z,WANG X Z,KOU Z H*,et al. Feasibility evaluation of CO2 EOR and storage in tight oil reservoirs:a demonstration project in the Ordos Basin[J]. Fuel,2023,331:125652. (SCI)
●KOU Z H,WANG H,ALVARADO V,et al. Method for upscaling of CO2 migration in 3D heterogeneous geological models[J]. Journal of Hydrology,2022,613:128361. (SCI)
●KOU Z H,ZHANG D,CHEN Z,et al. Quantitatively determine CO2 geosequestration capacity in depleted shale reservoir:a model considering viscous flow,diffusion,and adsorption[J]. Fuel,2022,309:122191. (SCI)
●KOU Z H,WANG H,ALVARADO V. Reservoir characterization and multiphase flow property in the upper Minnelusa sandstone:Implication for geological carbon storage[J]. Advances in Geo-Energy Research,2022,6(4):358-359. (ESCI)
●WANG H,KOU Z H*,BAGDONAS D A,et al. Multiscale petrophysical characterization and flow unit classification of the upper Minnelusa formation in the Powder River Basin,Wyoming:implications of geological carbon storage in the eolian sandstone[J]. Journal of Hydrology,2022,607:127466. (SCI)
●KOU Z H,WANG H,ALVARADO V,et al. Impact of sub-core scale heterogeneity on CO2/brine multiphase flow for geological carbon storage in the upper Minnelusa Sandstones[J]. Journal of Hydrology,2021,599:126481. (SCI)
●KOU Z H,WANG T,CHEN Z,et al. A fast and reliable methodology to evaluate maximum CO2 storage capacity of depleted coal seams:A case study[J]. Energy,2021,231:120992. (SCI)
●WANG H T,KOU Z H*,GUO J J,et al. A semi-analytical model for the transient pressure behaviors of a multiple fractured well in a coal seam gas reservoir[J]. Journal of Petroleum Science and Engineering,2021,198:108159. (SCI)
●KOU Z H,DEJAM M. Control of shear dispersion by the permeable porous wall of a capillary tube[J]. Chemical Engineering & Technology,2020,43(11):2208-2214. (SCI)
●KOU Z H,WANG H. Transient pressure analysis of a multiple fractured well in a stress-sensitive coal seam gas reservoir[J]. Energies,2020,13(15):3849. (SCI)
●KOU Z H,DEJAM M. Dispersion due to combined pressure-driven and electro-osmotic flows in a channel surrounded by a permeable porous medium[J]. Physics of Fluids,2019,13(5):056603. (SCI)
●HE L,MEI H Y,HU X R,DEJAM M,KOU Z H*,et al. Advanced flowing material balance to determine original gas-in-place of shale gas considering adsorption hysteresis[J]. SPE Reservoir Evaluation and Engineering,2019,22(4):1282-1292. (SCI)
●ZHANG L H,KOU Z H*,WANG H T,et al. Performance analysis for a model of a multi-wing hydraulically fractured vertical well in a coalbed methane gas reservoir[J]. Journal of Petroleum Science and Engineering,2018,166:104-120. (SCI)
(2)国际会议论文及报告
●KOU Z H,HOWARD J,TERRY O,et al. Quantification of a scalable relationship between NMR pore surface relaxivity and mineral alteration in vesicular basalts[C]. Washington DC,USA:AGU Fall Meeting,9-13 December 2024. (美国地球物理学会AGU年会)
●KOU Z H,ALVARADO V,COPELAND G,et al. Unveiling stimulation fluid-driven alterations of pore architecture and transport property in Mowry Shale,Wyoming[C]. Unconventional Resources Technology Conference,17-19 June 2024. (非常规资源技术会议URTeC,EI)
●Kou Z H. Overview of Geological CO2 Storage[C]. Wuhan:The 1st Geo-Energy Frontier Forum, 19-22 April 2024. (地球能源前沿论坛)
●KOU Z H,SHEN T X,FUTRELL L,et al. Characterizing the carbon storage and mineralization potential of Newberry volcano basalts[C]. San Francisco,USA:AGU Fall Meeting,11-15 December 2023. (美国地球物理学会AGU年会)
●KOU Z H,WANG H,ALVARADO V,et al. Upscaling of CO2 migration in 3D heterogeneous geological system[C]. Chicago,USA:AGU Fall Meeting,12-16 December 2022. (美国地球物理学会AGU年会)
●KOU Z H. Impacts of carbonated brine-rock reactions on multiphase flow properties in upper Minnelusa sandstone:implication for CO2 storage[C]. SPE Annual Technical Conference and Exhibition,3-5 October 2022,SPE-212389-STU. (国际石油工程师协会SPE年会,EI)
●KOU Z H,WANG T T,GAO S F,et al. Effects of surrounding matrix properties on dispersion coefficient of fracture in reservoirs[C]. Xi’an:International Conference on Energy Storage and Saving,20-23 October 2022. (储能与节能国际研讨会)
●KOU Z H,WANG H,ALVARADO V,et al. Effects of carbonated brine-rock interactions on CO2/brine multiphase flow properties in heterogeneous sandstone[C]. Boston,USA:AIChE Annual Meeting,7-11 November 2021. (美国化学工程师学会AIChE年会)
●KOU Z H,WANG H,BAGDONAS D A,et al. Impact of sub-core scale heterogeneity on CO2/brine multiphase flow for geological carbon storage in the Minnelusa sandstone[C]. AGU Fall Meeting,Online,1-17 December 2020. (美国地球物理学会AGU年会)
●KOU Z H,WANG H T,GUO J J,et al. Transient pressure analysis of multiple fractured wells in stress-sensitive coal seam gas reservoirs with stimulated reservoir volume[C]. 73st Annual Meeting of the APS Division of Fluid Dynamics,Online,22-24 November 2020. (美国物理学会流体力学APS-DFD年会)
●KOU Z H,DEJAM M. A mathematical model for a hydraulically fractured well in a coal seam reservoir by considering desorption,viscous flow,and diffusion[C]. Atlanta,USA:71st Annual Meeting of the APS Division of Fluid Dynamics,18-20 November 2018.(美国物理学会流体力学APS-DFD年会)
(3)学术兼职
●《Journal of Hydrology》期刊(SCI,一区,TOP期刊)副主编
●《SPE Journal》期刊(SCI,石油天然气领域著名学术期刊)副主编
●《Geoenergy Science and Engineering》期刊(SCI,二区,TOP期刊)副主编
●《Gas Science and Engineering》期刊(SCI,二区)专刊《Advancement in gas production,storage and transportation:Materials,Process optimization,and Applications》客座编辑
●《Journal of Contaminant Hydrology》期刊(SCI)编委
●《Energy Sources Part A:Recovery,Utilization and Environmental Effects》期刊(SCI)编委
●《Journal of Petroleum Exploration and Production Technology 》期刊(SCI)客座编辑
●《Energies》期刊(SCI)专刊《Advances in CCUS》客座编辑
●《Special Topics & Reviews in Porous Media:An International Journal》期刊(ESCI)副主编
●《International Journal of Mining Science and Technology》期刊(SCI,一区)青年编委
●《Advances in Geo-Energy Research》期刊(ESCI,一区)青年编委
●《Energy Storage and Savings》期刊青年编委
●《东北石油大学学报》青年编委
●《西安石油大学学报》青年编委
●InterPore2025 - Interfacial phenomena across scales分会场主席
●InterPore2024 - Interfacial phenomena across scales分会场主席
●AGU 2023 Annual Meeting - Technical Advances in Carbon Capture,Utilization,and Storage (CCUS) 分会场主席
●The XIV Congress of the International Association for Engineering Geology and the Environment - Geomechanics for Deep Oil and Gas Exploitation分会场召集人
●VinFuture Prize提名专家
●SPE国际技术奖评委会委员
●SPE学生论文竞赛全球总决赛评委
●SPE学生论文竞赛北美中部及东部赛区评委
●《SPE Journal》《Applied Energy》《Renewable Energy》等40余本SCI期刊审稿人
(4)个人荣誉
●SPE区域储层评价奖,2025
●TWA能源影响人物奖,2025
●SPE区域油藏描述与动态奖,2024
●哥伦比亚大学年度杰出博士后提名(系代表),2023
●哥伦比亚大学理事会成员提名(博士后代表),2023
●SPE ATCE Travel Grant奖学金,2022
●怀俄明州石油联合会奖学金,2022
●怀俄明州能源理事会会议学生代表,2022
●SPE论文竞赛洛基山赛区冠军,2022
●Gas Science and Engineering杰出审稿人,2022
●Advances in Geo-Energy Research优秀国际青年编委,2022
●国际埃尼奖Eni-能源转换奖提名,2021
●美国机械工程师协会ASME杰出审稿人,2020
(1)CO2地质埋存
●CO2咸水层封存
●CO2玄武岩矿化封存
(2)地下氢气储集
●氢气咸水层储集
●氢气油气藏储集
(3)地下原位制氢
●基性岩石原地产氢
●超基性岩石原地产氢
(4)非常规油气渗流理论及应用
●流体多尺度运移机制
●数值模拟及试井解释模型
复杂油气藏渗流理论与应用研究团队以张烈辉教授为领衔,学术团队成员有李晓平、赵玉龙、刘启国、陈军、冯国庆、胡书勇、王海涛、罗建新、郭晶晶、谭晓华、唐慧莹、张芮菡、赵俊良、张涛、田野、曹成、罗佳顺、寇祖豪、刘凌甫等骨干教师组成。该研究团队的主要特点是基于建立的渗流物理模型,以油气渗流机理实验研究为手段,以数学、力学为工具,采用多学科交叉渗透结合的研究方法,建立油气藏科学开发的渗流力学理论,在理论研究取得突破的基础上,研究油气田开发中的系列重要关键技术,包括油气藏数值模拟技术、油气井试井分析技术、油气藏动态分析技术等。
团队与美国斯坦福大学、哥伦比亚大学、康奈尔大学、南洋理工大学、俄亥俄州立大学、密歇根大学、威斯康辛大学麦迪逊分校、德克萨斯大学奥斯汀分校、斯蒂芬斯理工学院、卡尔加里大学、怀俄明大学、德州理工大学、休斯顿大学等全球顶尖高校保持有良好的合作关系,鼓励学生出国参加学术会议、访学及攻读学位。真诚欢迎热爱科研以及愿意投身科学探索的学生报考本团队硕士、博士研究生!
