职 称:讲师
导师资格:硕导
所属部门:采油气工艺研究所
学科专业:油气田开发工程
研究方向:非常规储层改造理论与技术
联系方式:17828046757;E-mail:swpu_wq@163.com
联系地址:610500 成都市新都区新都大道85号金沙娱场城app7979科技园902a
王强,博士(后),讲师,SPE会员。2021年获金沙娱场城app7979油气田开发工程学科博士学位,2019.12-2020.12在加拿大卡尔加里大学公派联合培养学习。长期从事非常规储层体积压裂裂缝延伸数值模拟、复杂多相多尺度渗流机理模拟、多场多物理行为耦合研究以及二氧化碳封存等方面的理论研究、技术应用和教学工作。主持与主研国家自然科学基金、全国重点实验室开放基金、“十三五”国家科技重大专项、油田公司项目等十余项。发表学术论文25篇(其中SCI期刊论文19篇,EI、CSCD期刊论文等6篇)。授权国际发明专利4项,授权国内发明专利7项,授权软件著作权5项。长期担任《石油勘探与开发》《石油与天然气地质》《Journal of Petroleum Science and Engineering》《Journal of Natural Gas Science and Engineering》《Energy Science & Engineering》等期刊审稿人。2019年获得康菲未来之路能源创新研究大赛全国总冠军,在四川省高校青年教师职业技能培训中获评优秀示范课学员。
●2010.09-2014.07 西安石油大学,机械设计及其自动化,学士
●2015.09-2018.07 金沙娱场城app7979,油气田开发工程(研究方向:非常规储层改造理论与技术),硕士
●2018.09-2021.07 金沙娱场城app7979,油气田开发工程(研究方向:非常规储层改造理论与技术),博士
●2019.12-2020.12 国家公派留学一年,University of Calgary,加拿大(导师:Nancy Chen)
●2021.11-至今 金沙娱场城app7979石油与天然气工程学院,讲师/博士后
●国家自然科学基金青年基金,52304041,天然气水合物储层蠕变和出砂作用下支撑裂缝导流模型与衰减机理研究,2024.12-2026.12,主持
●油气藏地质及开发工程全国重点实验室开放基金,PLN202329,页岩油压后焖井促进与抑制采油竞争机理研究,2023.10-2025.10,主持
●国家自然科学基金,51490653,页岩地层动态随机裂缝控制机理与无水压裂理论,2015.01-2019.12,主研
●中国石油集团川庆钻探工程有限公司,页岩储层压后焖井地层压力及区域动态预测软件界面设计制图,2024.05-2024.12,主持
●中国石油化工集团胜利油田,桩23块主力储层精细分层均衡压裂技术研究,2023.05-2024.12,主持
●中国石油集团川庆钻探工程有限公司,深层煤系致密气井排采机理研究,2023.05-2023.12,主持
●中国石油集团川庆钻探工程有限公司,致密砂岩储层岩性分析试验检验,2022.10-2023.12,主持
●中海油(中国)有限公司天津分公司项目,渤南海上油田注水井微压裂解堵技术研究,2018.03-2019.06,主研
●中石油青海油田项目,高应力差低渗透储层缝网体积改造技术研究,2018.06-2019.12,主研
●中石油新疆油田项目,玛2井区下乌尔禾组、百口泉组油藏岩心实验,2019.09-2020.09,主研
●长庆油田分公司项目,气田老井重复改造工艺技术研究,2019.05-2020.06,主研
●中国石油集团川庆钻探工程有限公司井下作业公司项目,页岩气藏水平井分段多簇压裂参数优化研究,2018.09-2019.07,主研
●中海石油(中国)有限公司湛江分公司项目,南海西部低渗气藏储层改造技术研究,2020-2021,主研
●胜利油田项目,页岩油水平井压裂分段、分簇优化研究——以樊页平1井为例,2021.05-2021.12,主研
●新疆油田公司项目,中佳地区深层气藏水平井体积压裂关键技术研究及应用,2021.06-2022.09,主研
(1)发表文章
●王强,赵金洲,胡永全,等. 页岩气老井重复压裂时机优化方法[J].石油勘探与开发,2024,51(1):190-198.(SCI-1区,IF-7.0)
●王强,赵金洲,胡永全,等. 深层页岩气井拉链式压裂裂缝扩展及窜通规律[J].石油勘探与开发,2024,录用待刊.(SCI-1区,IF-7.0)
●王强,赵金洲,胡永全,等.页岩油储集层压后焖井时间优化方法[J].石油勘探与开发,2022,49(3):1-11.(SCI-1区,IF-7.0)
●王强,赵金洲,胡永全,等.岩心尺度静态自发渗吸的数值模拟[J].石油学报,2022,43(6):1-11.
●赵金洲,王强,胡永全,等.多孔眼裂缝竞争起裂与扩展数值模拟[J].天然气地球科学,2020,31(10):1-12.
●王强,赵金洲,胡永全,等.页岩水力裂缝网络形态及激活机制研究[J].金沙娱场城app7979学报(自然科学版),2022,44(6):71-86.
●王强,王玉丰,梁升平,等.低渗储层关井后水力裂缝二次扩展规律[J].石油钻采工艺,2023,45(5):597-606.
●王强,胡永全,任岚,等.水力压裂裂缝及近缝储层温度场[J].大庆石油地质与开发,2018,1:98-102.
●胡永全,王强,史向阳,等.多场耦合作用对水力裂缝形态的影响[J].大庆石油地质与开发,2018,3:82-89.
●WANG Q,WANG Y F,ZHAO J Z,et al. A four-dimensional geostress evolution model for shale gas based on embedded discrete fracture model and finite volume method[J]. Dhahran,Saudi Arabia:at the International Petroleum Technology Conference,12-14 February 2024. IPTC-23476-MS.(EI)
●WANG Q,WANG Y F,WANG R,et al. Evolution law of stress induced by pressure depletion in fractured shale reservoirs:Implications for subsequent refracturing and infill well development[J].Petroleum,2024,录用待刊.(SCI,IF-4.6)
●WANG Q,ZHAO C N,Zhao J Z,et al. Numerical simulation of planar hydraulic fracture propagation with consideration to transition from turbulence to laminar flow regime[J]. Engineering Fracture Mechanics,2022,262:108258.(SCI-2区,IF-4.5)
●WANG Q,ZHAO J Z,WANG B,et al. Secondary growth and closure behavior of planar hydraulic fractures during shut-in[J]. Journal of Petroleum Science and Engineering,2022,213:110420.(SCI-2区,IF-4.3)
●WANG Q,ZHAO C,ZHOU W,et al. Numerical simulation of formation water salinity redistribution in fractured shale reservoirs during hydraulic fracturing[J]. Journal of Petroleum Science and Engineering,2022,218:111022(SCI-2区,IF-4.3)
●ZHAO C N,WANG Q,ZHAO J Z,et al. An understanding of oil–water replacement mechanism based on interfacial tension gradient during the well shut-in[J]. Energy Reports,2022,8:4006-4021.(SCI-2区,IF-6.9)
●WANG Q,HU Y Q,ZHAO J Z,et al. Numerical simulation of fracture initiation,propagation and fracture complexity in the presence of multiple perforations[J]. Journal of Natural Gas Science & Engineering,2020,83:103486.(SCI-2区,IF-4.96)
●HU Y Q,WANG Q,ZHAO J Z,et al. Numerical simulation of complex fracture geometry caused by hydrodynamics in shale with pre-existing weak planes[J]. Journal of Petroleum Science and Engineering,2021,199:108306.(SCI-2区,IF-4.3)
●ZHAO J Z,WANG Q,HU Y Q,et al. Numerical investigation of shut-in time on stress evolution and tight oil production[J]. Journal of Petroleum Science and Engineering,2019,179:716-733.(SCI-2区,IF-4.3)
●ZHAO J Z,WANG Q,HU Y Q,et al. Prediction of pore pressure–induced stress changes during hydraulic fracturing of heterogeneous reservoirs through coupled fluid flow/geomechanics[J]. Journal of Engineering Mechanics,2019,145(12):05019001.(SCI-3区,IF-2.6)
●HU Y Q,WANG Q,ZHAO J Z,et al. Study on induced stress of hydraulic fracturing in fractured-porous elastic media[J]. Energy Science & Engineering,2020,8:3314-3332.(SCI-3区,IF-4.2)
●HU Y Q,WANG Q,ZHAO J Z,et al. Three-dimensional complex fracture propagation simulation:Implications for rapid decline of production capacity[J]. Energy Science & Engineering,2020,8:4196-4211.(SCI-3区,IF-4.2)
●WANG Q,HU Y Q,ZHAO J Z,et al. Multiscale apparent permeability model of shale nanopores based on fractal theory[J]. Energies,2019,12:3381.(SCI-3区,IF-2.8)
●HU Y Q,Wang Q,ZHAO J Z,et al. A novel porous media permeability model based on fractal theory and ideal particle pore-space geometry assumption[J]. Energies,2020,13:510.(SCI-3区,IF-2.8)
●WANG Q,HU Y Q,ZHAO J Z. Effect of natural fractures on stress evolution of unconventional reservoirs using a finite element method and a fracture continuum method[J]. Geofluids,2019:1-16.(SCI-3区,IF-1.8)
●HU Y Q,WANG Q,ZHAO J Z,et al. Development of efficiently coupled thermo-hydro-mechanical model to predict hydraulic fracture morphology in heavy oil reservoirs[J]. Environmental Earth Science,2018,77:778.(SCI-4区,IF-2.18)
●WANG Q,HU Y Q,ZHAO J Z,et al. A numerical model to simulate fracture network induced by hydraulic fracturing for 3D shale gas reservoir with geo-stress interference[J]. Journal of Engineering Research,2019,8(2):45-65.(SCI-4区,IF-0.4)
●HU Y Q,WANG Q,ZHAO J Z,et al. Numerical simulation study on hydraulic fracture propagation in heavy oil reservoir with THM coupling[J]. Int. J. Oil,Gas and Coal Technology,2020,24(2):179-204.(SCI-4区,IF-0.75)
●HU Y Q,ZHAO C N,ZHAO J Z,WANG Q,et al. Mechanisms of fracturing fluid spontaneous imbibition behavior in shale reservoir:A review[J]. Journal of Natural Gas Science & Engineering,2020,82:103498. https://doi.org/10.1016/j.jngse.2020.103498.(SCI-2区,IF-3.82)
●HU Y Q,ZHAO J,ZHAO J Z,ZHAO C N,WANG Q,et al. Coiled tubing friction reduction of plug milling in long horizontal well with vibratory tool[J]. Journal of Petroleum Science and Engineering,2019,177:452-465.(SCI-3区,IF-3.72)
●ZHAO C N,HU Y Q,ZHAO J Z,WANG Q,et al. Numerical investigation of hydraulic fracture extension based on the meshless method[J]. Geofluids,2020:1-16.(SCI-3区,IF-1.8)
(2)授权国际发明专利
●ZHAO J Z,WANG Q,HU Y Q,et al. Method for simulating the discontinuity of the hydraulic fracture wall in fractured reservoirs:US11118450B2[P]. 2021-09-14.
●HU Y Q,WANG Q,ZHAO J Z,et al. Method for predicting the optimal shut-in duration by coupling fluid flow and geological stress:US11015444B2[P]. 2021-05-25.
●HU Y Q,ZHAO C N,ZHAO J Z,FENG H,WANG Q. Experimental appratus and method for simulating transport of sand carrying fluid in fracturing fractures:US10801312B2[P]. 2020-10-13.
●HU Y Q,ZHAO C N,ZHAO J Z,SONG P J,WANG Q. Testing device and method for simulationg the flowback in the shut-in period of fractured wells:US11054405B2[P] .2021-07-06.
(3)授权国内专利
●赵金洲,王强,胡永全,等.一种基于热流固耦合作用的超深层砂岩缝网改造评价方法:201910170569.5[P]. 2020-03-20.
●胡永全,王强,赵金洲,等.一种模拟注水井水压驱动裂缝延伸动态的方法:201810765445.7[P]. 2019-05-31.
●王强,胡永全,赵金洲,等.一种模拟海上油田微压裂增注裂缝扩展的方法:201810764790.9[P]. 2019-05-31.
●胡永全,王强,赵金洲,等.一种模拟裂缝性储层中水力裂缝壁面不连续性行为的方法:201911225898.1[P]. 2020-11-10.
●王强,胡永全,赵金洲,等.一种基于分形理论的预测页岩纳米孔隙渗透率的方法:201910985843.4[P]. 2020-11-03.
●胡永全,王强,赵金洲,等.一种耦合流体流动与地质应力预测最优闷井时间的方法:201910609637.3[P]. 2020-12-08.
●胡永全,王强,赵金洲,等.一种基于裂缝连续体模型预测裂缝性储层应力演化的方法:201910985831.1[P]. 2021-02-02.
(4)授权软件著作权
●赵金洲,王强,胡永全,等.基于位移不连续法诊断超深层分段压裂净压力研究软件:2019SR0741190[CP/CD]. 2019-04-03.
●赵金洲,王强,胡永全,等.耦合流体地质应力优化关井时间研究软件:2019SR0741185[CP/CD].2019-03-28.
●王强,赵金洲,胡永全.基于位移不连续法模拟多裂缝诱导应力场研究软件:019SR0685317[CP/CD]. 2019-07-03.
●王强,赵金洲,胡永全.生产过程中储层应力演化与应力反转研究软件:2019SR0685299[CP/CD]. 2019-07-03.
●胡永全,王强.裂缝性稠油储层水力裂缝温度场研究软件:2018SR841605[CP/CD]. 2018-10-22.
●水力压裂数值模拟—非常规储层体积压裂裂缝扩展机理与技术
●渗流数值模拟—非常规储层多尺度多相流体流动机理研究
●多物理场耦合数值模拟研究
●二氧化碳封存关键技术研究
金沙娱场城app7979“油气藏增产改造与提高采收率”团队在赵金洲教授的带领下,在非常规油气藏压裂酸化的理论与新技术方面开展了长期深入的数年研究工作,涵盖了体积压裂裂缝扩展延伸机理、压裂酸化工作液体系、裂缝扩展与压后产能模型及优化设计技术、机理实验方法与实验仪器研制、压裂酸化新工艺技术等。近年来在缝网压裂基础理论、复杂条件下破裂压力预测理论与降低破裂压力技术理论、定量优选压裂井层理论、水平井分段模型与理论、裂缝性储层压裂液滤失理论与测试、多相介质中的单井增产效果预测与裂缝参数优化设计理论以及整体压裂方案编制优化设计理论、低伤害低成本高温新型压裂液、控缝高压裂技术与重复压裂技术、降滤失技术机理、复杂岩性储层压裂等方面取得了特色研究成果,建立了一支研究方向稳定、知识结构和年龄合理的精干研究团队。近年来,该团队承担国家自然科学基金、国家“973”计划项目、国家油气重大专项、教育部、中石油和中石化等重点攻关项目和油田重大工程项目多项。研究成果获得国家科技特等奖1项、一等奖1项,二等奖1项,国家技术发明二等奖1项,省部级科技奖10余项,研究成果发表论文300余篇,被SCI、EI、ISTP收录80余篇。其中,围绕非常规储层增产改造理论与技术领域的近期主要研究成果包括专著、论文、专利、软件、获奖等。