(1)发表论文 ●Wang,G.,Huang,Y.andXu,S.,Laboratoryinvestigationoftheselectioncriteriafortheparticlesize distributionofgranularlostcirculationmaterialsinnaturallyfracturedreservoirs.JournalofNaturalGas ScienceandEngineering,2019b,71. ●WangG,DuH,JiangS.Synergisticinhibitioneffectoforganicsaltandpolyamineonwater-sensitiveshale swellinganddispersion[J].JournalofEnergyResourcesTechnology,2019,141(8):082901.(SCI/EI收录) ●DuH,WangG,DengG,etal.Modellingtheeffectofmudstonecuttingsonrheologicalpropertiesof KCl/Polymerwater-baseddrillingfluid[J].JournalofPetroleumScienceandEngineering,2018,170:422-429. (SCI/EI收录) ●WangG,DuH.RheologicalpropertiesofKCl/Polymertypedrillingfluidscontainingparticulateloss preventionmaterial[J].AppliedRheology,2018,28(3):1-6.(SCI/EI收录) ●WangG,DuH,GuoB.Determinationofviscosityandwallslipbehaviorofapolymer-gelusedforleakage controlfromCouetteviscometrydata[J].JournalofEnergyResourcesTechnology,2018,140(3):032910. (SCI/EI收录) ●WangG,DuH,ZhangZ.Viscousbehaviorandwallslipofbarite-weightedwater-baseddrillingfluids containingahighparticlefraction[J].JournalofPetroleumScienceandEngineering,2017,159:773-782. (SCI/EI收录) ●WangG,CaoC,PuXL,etal.Experimentalinvestigationonpluggingbehaviorofgranularlostcirculation materialsinfracturedthiefzone[J].ParticulateScienceandTechnology,2016,34(4):392-396.(SCI/EI 收录) ●WangG,PuXL.Discreteelementsimulationofgranularlostcirculationmaterialpluggingafracture[J]. ParticulateScienceandTechnology,2014,32(2):112-117.(SCI/EI收录) ●WangG,PuXL.Anumericalstudyonfracture-pluggingbehaviourofgranularlostcirculationmaterials[J]. SainsMalaysiana,2014,43(5):807-812.(SCI/EI收录) ●WangG,PuXL,TaoHZ.Asupportvectormachineapproachforthepredictionofdrillingfluiddensityat hightemperatureandhighpressure[J].PetroleumScienceandTechnology,2012,30(5):435-442.(SCI/EI 收录) ●WangG,PuXL.Rheologyofhigh-densitydrillingfluids:Wallslipduringviscositymeasurement[J]. PetroleumScienceandTechnology,2011,29(22):2321-2328.(SCI/EI收录) ●CaoC,PuXL,WangG,etal.Comparisonofshaleinhibitorsforhydration,dispersionandswelling suppression[J].ChemistryandTechnologyofFuelsandOils,2018,53(6):966-975.(SCI/EI收录) ●CaoC,PuXL,ZhaoZ,WangG,etal.Experimentalinvestigationonwellborestrengtheningbasedona hydraulicfracturingapparatus[J].JournalofEnergyResourcesTechnology,2018,140(5):052902.(SCI/EI 收录) ●ZhaoZ,PuXL,WangG,etal.Numericalstudyofthegas-fluiddisplacementinvasionbehaviorina fracturedcarbonatereservoir[J].JournalofNaturalGasScienceandEngineering,2015,27:686-691.(SCI/EI 收录) ●ZhaoZ,PuXL,LuoX,WangG,etal.Synthesisandpropertiesofhightemperatureresistantandsalttolerant filtratereducerN,N-dimethylacrylamide2-acrylamido-2-methyl-1-propyldimethyldiallylammoniumchloride N-vinylpyrrolidonequadripolymer[J].JournalofPolymerEngineering,2015,35(7):627-635.(SCI/EI收 录) ●GuoB,LiJ,CaiX,ZhangX,WangG.UseofFluidLevelSurveyDatatoInferNear-WellboreConditions forCuringLostCirculationWells[C].2018,SPEInternationalConferenceandExhibitiononFormation DamageControl,Lafayette,Louisiana,USA.(EI收录) ●王贵,蒲晓林,罗兴树,等.考虑滑移效应的高密度水基钻井液流变特性[J].石油学报,2011,32(3): 539-542.(EI收录) ●王贵,蒲晓林,文志明,等.基于断裂力学的诱导裂缝性井漏控制机制分析[J].金沙娱场城app7979学报(自然 科学版),2011,33(1):131-134. ●王贵,蒲晓林.提高地层承压能力的钻井液堵漏作用机制[J].石油学报,2010,31(6):27-30.(EI收录) ●王贵,蒲晓林,罗兴树,等.裂缝性桥塞堵漏的颗粒流数值模拟研究[C].云南腾冲:全国钻井液完井液 技术研讨会论文集,2012. ●王贵,蒲晓林,唐继平,等.裂缝性漏失桥塞堵漏技术研究[C].成都:钻井基础理论研究与前沿技术开 发新进展学术研讨会论文集,2010. ●王贵,蒲晓林.水基钻井液高温高压密度特性研究[J].石油钻采工艺,2008.3(30):38-40. ●王贵,蒲晓林.高温深井当量静态密度研究[J].钻井液与完井液,2008.1(25):1-2,5. ●王贵,蒲晓林,罗兴树,等.高温高压水基钻井液静态密度研究[J].金沙娱场城app7979学报,2007.5(29):97-99. (2)授权发明专利及软件著作 ●王贵,杨京华,何仲,方静,周伟.架桥材料及其制备方法以及堵漏剂和堵漏液及其应用;中国,ZL201810866659.3[P].2019-04-12. ●王贵,杨京华,蒲晓林,曹成,李方.一种提高地层破裂压力的阻裂剂及其制备方法以及水基钻井液和应用; 中国,ZL201810909710.4[P].2019-04-12. ●王贵,曹成,蒲晓林,赵正国.一种钻进火成岩用钾基沥青质钻井液;中国,ZL201610260065.9[P].2018-12-18. ●王贵,杜辉,鲁劲松.钻井液流变参数计算与流变模式优选软件(Android版),中华人民共和国国家版权 局计算机软件著作权.2018SR566373.2018-05-20. ●王贵,杜辉.井底压力及当量循环密度的确定软件,中华人民共和国国家版权局计算机软件著作 权.2018SR580683.2018-07-25. ●李红冀,蒲晓林,王贵.钻井液优化设计系统软件,中华人民共和国国家版权局计算机软件著作 权.2014SR116597.2014-06-01. ●赵洋,邓明毅,王贵.裂缝性漏失堵漏决策支持系统,中华人民共和国国家版权局计算机软件著作 权.2018SR287143.2018-01-05. (3)获得奖励及荣誉 ●多压力层系油气井暂堵控漏关键技术及规模应用,中国石油和化工自动化应用行业奖,二等奖,排名 第3 ●非常规油气藏钻井液关键技术及工业化应用,中国产学研合作创新成果奖,二等奖,排名第7 ●国家自然科学基金石油工程领域在研项目交流及学科发展趋势研讨会,优秀报告奖,2017 |