周岭
近期热点
资料介绍
个人简历
周岭,男,汉族,副研究员、硕士生导师,流体机械部副部长,中国石油和化工行业泵及系统重点实验室秘书。江苏大学—美国圣路易斯华盛顿大学联合培养博士,江苏省优秀博士学位论文、江苏省优秀青年基金获得者。1986年3月出生,河南南阳人。2008年7月毕业于华北水利水电学院建筑环境与设备工程专业,获学士学位;2011年6月毕业于江苏大学流体机械及工程专业,获硕士学位;2014年6月获江苏大学流体机械及工程专业博士学位,同年留校工作至今。2018年3月至2019年3月在美国圣路易斯华盛顿大学任访问学者。长期从事流体机械的研究工作,主要方向包括气固/气液/固液两相流、潜油/潜水泵水力模型优化设计、内流实验与数值模拟等。发表SCI、EI收录论文50余篇,获国家科技进步二等奖(第七)、机械工业科学技术一等奖(第二)、教育部科技成果二等奖(第一)等10余项科技奖励。2015年入选江苏省双创博士计划,2016年入选山东省济宁市突出贡献中青年专家,2017年入选牛顿基金中英创新领军人才,2018年荣获联合国可持续发展目标青年工程师奖,入选江苏省科协青年人才托举计划、江苏省六大高峰高层次人才。主要科研项目(1)国家自然科学基金青年基金项目(51609106),主持,在研;(2)江苏省自然科学基金优秀青年基金项目(BK20190101),主持,在研;(3)中国博士后科学基金特别资助项目(2017T100331),主持,结题;(4)江苏省自然科学基金青年基金项目(BK20150508),主持,结题;(5)江苏省高校自然科学研究面上项目(15KJB570001),主持,结题;(6)江苏省博士后科研资助计划A等项目(1501069A),主持,结题;(7)国家自然科学基金面上项目(51979138),第二参与人,在研;(8)国家自然科学基金面上项目(51279069),第三参与人,结题。获奖情况[1]施卫东,李红,王新坤,刘建瑞,范永申,朱兴业,周岭,刘俊萍,陈超,李伟.新型低能耗多功能节水灌溉装备关键技术研究与应用.国家科技进步二等奖,2015.12。[2]周岭,施卫东,曹卫东,王川,李伟,曹宇鹏,蒋小平,胡敬宁,白玲.大型矿用多级泵节能降耗关键技术研究与产业化,中国机械工业科学技术奖二等奖,2018.11。[3]周岭,施卫东,欧鸣雄,李伟,王川,曹宇鹏,曹卫东,蒋小平.高效大功率矿用多级泵基础理论研究与工程应用,教育部高等学校科学研究优秀成果二等奖,2018.12。[4]施卫东,周岭,王晓晓,张启华,陆伟刚,朱军,许建强,史志华,余学军,白玲.高效井用潜水泵基础理论研究与系列产品开发,中国机械工业科学技术奖一等奖,2014.11。[5]潘波,李伟,周岭,施卫东,潘述怀,黄俊,乔守滨,王川,屈兵.高扬程大功率矿用抢险多级泵关键技术研究与工程应用,山东省科技进步二等奖,2016.12。[6]李伟,施卫东,蒋小平,周岭,叶晓琰,曹卫东,胡敬宁,王川,张德胜,卢展雄,刘建瑞,巫建波,潘波,陆伟刚,许敏田.基于动力学稳定性设计的多级离心泵关键技术研究及应用,教育部高等学校科学研究优秀成果二等奖,2016.12。[7]周岭,施卫东,王川,陆伟刚,朱军.新型多级离心泵设计方法与关键技术研究,镇江市科技进步一等奖,2014.09。[8]施卫东,周岭,曹卫东,李伟,王川,张德胜,郎涛,陆伟刚.新型煤矿深井用潜水泵关键技术研究与产业化,第十六届中国国际工业博览会银奖,2014.11。[9]施卫东,李伟,周岭,杨勇飞,季磊磊,蒋小平,张德胜,张扬,赵晓凡,白玲.特种高效涡轮驱动混流泵关键技术研究及应用,中国军民两用技术创新应用大赛银奖,2016.11.[10]李伟,施卫东,蒋小平,周岭,黄俊,胡敬宁,张德胜,付强,叶晓琰,孔繁余.化工流程泵结构强度与动力学特性研究及工程应用,中国石油和化学工业联合会科学技术奖二等奖,2014.12。[11]周岭.新型深井离心泵设计方法与试验研究,江苏省优秀博士学位论文,2015.07。[12]周岭.深井离心泵导叶的数值模拟和优化设计,江苏省优秀硕士学位论文,2012.06。授权专利[1]周岭,杨阳,陆伟刚,施卫东,王川,蒋小平,李伟.一种带自排沙结构的深井泵,ZL201610824261.4,2018年4月17日,授权发明专利。[2]王川,施卫东,周岭.一种多级自吸离心泵叶轮导叶结构,ZL201310532497.7,2016年3月23日,授权发明专利。[3]周岭,陆伟刚,王川,蒋小平,杨阳.一种自平衡轴向力的深井泵,ZL201620277328.2,2016年4月6日,授权实用新型专利。[4]周岭,杨阳,陆伟刚,施卫东,王川,蒋小平,李伟.一种带自排沙结构的深井泵,ZL201621056448.6,2016年9月14日,授权实用新型专利。[5]周岭,杨阳,陆伟刚,施卫东,李林建,韩晨,王万宏.一种智能变频调速的高效恒功率低比速潜水泵,ZL201820896429.7,2019年4月16日,授权实用新型专利。研究领域
主要研究方向(1)高效、高扬程井用潜油/潜水泵数值仿真、优化设计与水力模型开发;(2)多级泵压力脉动与轴向力的实验测量与调控方法研究;(3)流体机械两相流及磨蚀磨损研究。近期论文
(1)著作[1]周岭,施卫东,陆伟刚.新型井用潜水泵设计方法与试验研究,北京:机械工业出版社,2015.[2]王川,施卫东,蒋小平,周岭.多级自吸喷灌泵,北京:机械工业出版社,2016.[3]RameshK.Agarwal,SubhodeepBanerjee,XiaoZhang,ZhemingZhang,LingZhou.ProcessandReactorLevelSimulationsofCoal-DirectChemical-loopingCombustion,NovelCombustionConceptsforSustainableEnergyDevelopment,2014,Springer.[4]袁寿其,施卫东,刘厚林,等.泵理论与技术,北京:机械工业出版社,2014.(参与撰写第一章、第六章)[5]袁寿其,李红,施卫东,等.新型喷灌装备设计理论与技术,北京:机械工业出版社,2011.(参与撰写第四章)(2)期刊论文[1]LingZhou,WeidongShi*,WeigangLu,BoHu,SuqingWu.Numericalinvestigationsandperformanceexperimentsofadeep-wellcentrifugalpumpwithdifferentdiffusers.ASMEJournalofFluidsEngineering,2012,134(07):0711002–8.(SCI,IF:1.72)[2]LingZhou,WeidongShi*,WeiLi,RameshAgarwal.Numericalandexperimentalstudyofaxialforceandhydraulicperformanceinadeep-wellcentrifugalpumpwithdifferentimpellerrearshroudradius.ASMEJournalofFluidsEngineering,2013,135(10):104501–8.(SCI,IF:1.72)[3]LingZhou,LingjieZhang,WeidongShi,RameshAgarwal*,WeiLi.TransientComputationalFluidDynamics/DiscreteElementMethodsimulationofgas–solidflowinaspoutedbedanditsvalidationbyhigh-speedimagingexperiment.ASMEJournalofEnergyResourcesTechnology,2018,140(1):012206-9.(SCI,IF:2.759)[4]LingZhou,ZhemingZhang,ChrisChivetta,RameshAgarwal*.ProcesssimulationandvalidationofChemical-LoopingwithOxygenUncoupling(CLOU)processusingCu-basedoxygencarrier.Energy&Fuels,2013,27(11):6906–6912.(SCI,IF:3.021)[5]LingZhou*,LingjieZhang,LingBai,WeidongShi,WeiLi,ChuanWang*,RameshAgarwal.ExperimentalstudyandtransientCFD/DEMsimulationinafluidizedbedbasedondifferentdragmodels,RSCAdvances,2017,7,12764–12774.(SCI,IF:3.049)[6]LingZhou,LingBai,WeiLi,WeidongShi*,ChuanWang.PIvalidationofdifferentturbulencemodelsusedfornumericalsimulationofacentrifugalpumpdiffuser.EngineeringComputations,2018,35(1),2-17.(SCI,IF:1.246)[7]LingZhou,WeidongShi*,WeidongCao,HongbinYang.CFDinvestigationandPIvalidationofflowfieldinacompactreturndiffuserunderstrongpart-loadconditions.ScienceChinaTechnologicalSciences,2015,58(3):405–414.(SCI,IF:2.18)[8]LingZhou,WeidongShi*,WeiLi,RameshAgarwal.ParticleImageVelocimetrymeasurementsandperformanceexperimentsinacompactreturndiffuserunderdifferentrotatingspeed.ExperimentalTechniques,2016,40(1):245–252.(SCI,IF:0.779)[9]LingZhou,WeidongShi*,SuqingWu.Performanceoptimizationinacentrifugalpumpimpellerbyorthogonalexperimentandnumericalsimulation.AdvancesinMechanicalEngineering,2013,5(8):1–7.(SCI,IF:1.024)[10]LingZhou,WeidongShi*,LingBai,WeigangLu,WeiLi.Numericalcalculationandexperimentalstudyofaxialforceinadeep-wellcentrifugalpump.LatinAmericanAppliedResearch,2014,44(1):105–110.(SCI,IF:1.145)[11]LingZhou,LingBai,WeidongShi*,WeiLi,ChuanWang,DaoxingYe.Numericalanalysisandperformanceexperimentofelectricsubmersiblepumpwithdifferentdiffuservanesnumber.JournaloftheBrazilianSocietyofMechanicalSciencesandEngineering,2018,40(1):1–11.(SCI,IF:1.743)[12]ChuanWang,WeidongShi,XinkunWang,XiaopingJiang,YangYang,LingZhou*.Optimaldesignofmultistagecentrifugalpumpbasedonthecombinedenergylossmodelandcomputationalfluiddynamics.AppliedEnergy,2017,187:10–26.(SCI,IF:8.426)[13]WeiLi*,LingZhou*,WeidongShi,LeileiJi,YongfeiYang,XiaofanZhao.PIexperimentoftheunsteadyflowfieldinmixed-flowpumpunderpartloadingcondition.ExperimentalThermalandFluidScience,2017,83:191–199.(SCI,IF:2.616)[14]LingBai,WeidongShi,LingZhou*,LingjieZhang,WeiLi,RameshAgarwal*.Experimentalstudyoftransienthydrodynamicsinaspoutedbedofpolydisperseparticles.ASMEJournalofEnergyResourcesTechnology,2018,140(8):082206.(SCI,IF:2.795)[15]MahmoudA.El-Emam,WeidongShi*,LingZhou*.CFD-DEMsimulationandoptimizationofgas-cycloneperformancewithrealisticmacroscopicparticulatematter.AdvancedPowderTechnology,2019,inpress.(SCI,IF:3.250)[16]LingBai,LingZhou*,XiaopingJiang*,QinglongPang,DaoxingYe.Vibrationinamultistagecentrifugalpumpundervariedconditions.ShockandVibration,2019,2057031,1-9.(SCI,IF:1.628)[17]LingBai,LingZhou*,ChenHan,YongZhu*,WeidongShi.Numericalstudyofpressurefluctuationandunsteadyflowinacentrifugalpump.Processes,2019,7(6),354.(SCI,IF:1.963)[18]XiaopingJiang,LiWang,LingZhou*,WeiLi,ChuanWang.Transientresponseanalysisofcantilevermultistagecentrifugalpumpbasedonmulti-sourceexcitation.JournalofLowFrequencyNoise,VibrationandActiveControl,2019,1-17.(SCI,IF:1.491)[19]WeiLi,XiaopingJiang,QinglongPang,LingZhou*.Numericalsimulationandperformanceanalysisofafour-stagecentrifugalpump.AdvancesinMechanicalEngineering,2016,8(10):1–8.(SCI,IF:1.024)[20]WangLi,LiuHoulin,WangKai,LingZhou*,JiangXiaoping*,LiYu.Numericalsimulationofthesoundfieldofafive-stagecentrifugalpumpwithdifferentturbulencemodels.Water,2019,11,1777.(SCI,IF:2.524)[21]WeidongShi,LingZhou*,WeigangLu,BingPei,TaoLang.Numericalpredictionandperformanceexperimentinadeep-wellcentrifugalpumpwithdifferentimpelleroutletwidth.ChineseJournalofMechanicalEngineering,2013,26(1):46–52.(SCI,IF:1.413)[22]WeidongShi,LingZhou*,WeigangLu,LeiXu,WeiLi.Numericalsimulationandexperimentalstudyofdifferentstagesdeep-wellcentrifugalpump.JournalofComputationalandTheoreticalNanoscience,2013,10(12):2897–2901.(SCI,IF:1.666)[23]ChuanWang*,WeidongShi,QiaoruiSi,LingZhou*.Numericalcalculationandfiniteelementcalculationonimpellerofstainlesssteelmultistagecentrifugalpump,JournalofVibroengineering,2014,16(4):1723–1734.(SCI,IF:0.398)[24]YongZhu,ShengnanTang*,LingxiaoQuan,WanluJiang,LingZhou*.Extractionmethodforsignaleffectivecomponentbasedonextreme-pointsymmetricmodedecompositionandKullback–Leiblerdivergence[J].JournaloftheBrazilianSocietyofMechanicalSciencesandEngineering,2019,41(2):1-13.(SCI,IF:1.743)[25]ZhemingZhang,LingZhou,RameshAgarwal.Transientsimulationsofspoutedfluidizedbedforcoal-directChemicalLoopingCombustion.Energy&Fuels,2014,28(2):1548–1560.(SCI,IF:3.021)[26]ChuanWang,XikunWang,WeidongShi*,WeigangLu,SoonKeatTan,LingZhou.ExperimentalinvestigationonimpingementofasubmergedcircularwaterjetatvaryingimpinginganglesandReynoldsnumbers.ExperimentalThermalandFluidScience,2017,89(12):189-198.(SCI,IF:2.616)[27]JiagengLi,RameshK.Agarwal,LingZhou,BolunYang.InvestigationofabubblingfluidizedbedmethanationreactorbyusingCFD-DEMandapproximateimageprocessingmethod.ChemicalEngineeringScience,2019,207(2),1107-1120.(SCI,IF:3.372)[28]ChuanWang,WeidongShi,LingZhou,etal.Effectanalysisofgeometricparametersonstainlesssteelstampingmultistagepumpbyexperimentaltestandnumericalcalculation.AdvancesinMechanicalEngineering,2013,(12):1-8.(SCI,IF:1.024)[29]GuangjianZhang,WeidongShi,DeshengZhang,ChuanWang,LingZhou.AhybridRANS/LESmodelforsimulatingtime-dependentcloudcavitatingflowaroundaNACA66hydrofoil.ScienceChinaTechnologicalSciences,2016,59(8):1252-1264.(SCI,IF:2.18)[30]XiongfaGao,WeidongShi*,LingZhou,DeshengZhang,QihuaZhang.Computationalfluiddynamicsandexperimentalstudyofinter-stagesealclearanceonsubmersiblewellpump.AdvancesinMechanicalEngineering,2016,8(2):1-7.(SCI,IF:0.848)[31]LinweiTan,WeidongShi,DeshengZhang,LingZhou,ChuanWang.Numericalandexperimentalinvestigationsofpressurefluctuationsinsingle-channelpumps[J].ProceedingsoftheInstitutionofMechanicalEngineers,PartA:JournalofPowerandEnergy,2018,232(4):397-415.(SCI,IF:1.694)[32]LinweiTan,DeshengZhang,WeidongShi*,LingZhou,XiaotongCai.Influenceofvolutebasiccirclediameteronthepressurefluctuationsandflownoiseofalowspecificspeedsewagepump.JournalofVibroengineering,2017,19(5):3779-3796.(SCI,IF:0.939)[33]WeiLi*,XiaofanZhao,WeiqiangLi,WeidongShi,LeileiJi,LingZhou.Numericalpredictionandperformanceexperimentinanenginecoolingwaterpumpwithdifferentbladeoutletwidths.MathematicalProblemsinEngineering,2017,8945712,11pages.(SCI,IF:1.145)[34]WeiLi*,LeileiJi,WeidongShi*,LingZhou,XiaopingJiang,YangZhang.Fluid-structureinteractionstudyofamixed-flowpumpimpellerduringstartup.EngineeringComputations,2018,35(1):18-34.(SCI,IF:1.246)[35]WeiLi,LeileiJi,WeidongShi,YuluWang,LingZhou,XiaopingJiang.VibrationofShaftSystemintheMixed-FlowPumpInducedbytheRotor-StatorInteractionunderPartialLoadConditions[J].ShockandVibration,2018,2059784.(SCI,IF:1.628)[36]LingZhou,LingBai,LingjieZhang,WeidongShi,RameshAgarwal*.ValidationandcomparisonofDiscreteElementModelandTwo-FluidModelfordensegas–solidflowsimulationinafluidizedbed[J].InternationalJournalofEnergyforaCleanEnvironment,2019,20(2):135–151.(EI)[37]LingZhou,WeidongShi*,WeiLi.Optimizationofimpellerrearshroudradiusindeep-wellcentrifugalpumpbasedongoldensectionmethod.EnergyEducationScienceandTechnologyPartA:EnergyScienceandResearch,2012,30(SI.2):377–382.(EI)[38]LingZhou,ZhemingZhang,RameshAgarwal*.SimulationandvalidationofChemical-loopingCombustionusingASPENPlus.InternationalJournalofEnergyandEnvironment,2014,5(1):53–58.[39]GuangjianZhang,WeidongShi,LingZhou*,etal.Effectofthemaximumdensityratiobetweenliquidandvaporoncavitatingsimulation.AmericanJournalofEngineeringandAppliedSciences,2015,9(1):119–126.[40]MahmoudA.El-Emam,SaadFathallahAhmed,MohamedAhmedSabah,SolimanNasif,WeidongShi*,LingZhou*.Designandconstructionofapneumaticharvestingandcleaningmachineforjojobaseeds.EngineeringinAgriculture,EnvironmentandFood,2019,inpress.[41]XiaoZhang,SubhodeepBanerjee,LingZhou,RameshAgarwal*.Processsimulationandmaximizationofenergyoutputinchemical-loopingcombustionusingASPENplus.InternationalJournalofEnergyandEnvironment,2015,6(2):201–226.[42]周岭,施卫东*,陆伟刚,张丽,王川.深井离心泵数值模拟与试验.农业机械学报,2011,42(3):69–73.(EI)[43]周岭,施卫东*,陆伟刚.基于数值模拟的深井离心泵导叶性能分析.农业工程学报,2011,27(9):38–42.(EI)[44]周岭,施卫东*,陆伟刚,李辉,裴冰.深井离心泵内部非定常流动的压力脉动特性分析.农业工程学报,2011,27(10):44–49.(EI)[45]周岭,施卫东*,陆伟刚,许荣军,王川.井用潜水泵导叶的正交试验与优化设计.排灌机械工程学报,2011,29(4):312–315.(EI)[46]周岭,施卫东*,陆伟刚,黄萍,裴冰.叶轮进口边位置对深井离心泵水力性能的影响.农业机械学报,2012,43(3):78–82.(EI)[47]周岭,施卫东*,陆伟刚,李振同,李伟.深井离心泵轴向力数值预测与试验.农业机械学报,2012,43(7):100–103,140.(EI)[48]施卫东,周岭*,陆伟刚,张丽,王川.高扬程深井泵的正交试验研究与优化设计.江苏大学学报自然科学版,2011,32(4):400–404.(EI)[49]陆伟刚,张丽,周岭*,王川.斜流式离心叶轮的轴向力计算[J].工程热物理学报,2011,32(suppl.1):9–12.(EI)[50]周岭*,白玲,杨阳,施卫东,陆伟刚.导叶叶片数对井用潜水泵性能的影响[J].农业机械学报,2016,47(10):78–84.(EI)[51]周岭*,杨阳,王伟,蒋小平,施卫东.叶轮结构对多级离心泵性能及噪声的影响[J].水电能源科学,2016,34(11):178–181.[52]周岭*,杨阳,施卫东,陆伟刚,叶道星.导叶出口边位置对深井离心泵性能的影响[J].排灌机械工程学报,2016,34(12):1028-1034.[53]周岭*,侯云鹤,王伟,杨阳.基于LMSVirtual.Lab的多级离心泵数值模态分析[J].流体机械,2017,45(6):21-25.[54]施卫东,张铃杰,周岭,陆伟刚.基于DEM的流化床气固两相流瞬态数值模拟与验证[J].排灌机械工程学报,2017,35(5):404-409.[55]施卫东,杨阳,周岭,等.潜水泵缩比模型的相似性验证与内部流场分析[J].农业工程学报,2017,33(3):50-57.(3)会议论文[1]WeiLi,RameshK.Agarwal,LeileiJi,EndaLi,LingZhou.NumericalSimulationofIncipientRotatingStallCharacteristicsinaMixed-FlowPump,AIAAScitech,Jan7-11,2019,SanDiego,USA.[2]LingZhou,WeidongShi,WeigangLu.Modeling,CFDSimulationandExperimentsofElectricalSubmersiblePump.The14thAsianInternationalConferenceonFluidMachinery,No10-13,2017,Zhenjiang,China.[3]LingZhou,WeidongShi,WeigangLu,WeiLi.HydraulicDesign,NumericalSimulationandPIValidationofCompactSizeMultistageCentrifugalPump.16thInternationalSymposiumonTransportPhenomenaandDynamicsofRotatingMachinery,April10-15,2016,Honolulu,USA.(Keynotespeech)[4]LingZhou,TaoLang,WeidongShi.Numericalsimulationofdifferentturbulencemodelsinacompactreturndiffuser.ASME-JSME-KSMEJointFluidsEngineeringConference2015(AJK2015-FED),July26-31,2015,Seoul,Korea.[5]LingZhou,WeidongShi,WeiLi,LingBai.DetachedEddySimulationandPIvalidationoftheflowinacompactreturndiffuser.6thInternationalSymposiumonFluidMachineryandFluidsEngineering(ISFMFE-2014),October22-25,2014.[6]LingZhou,WeidongShi,LingBai,WeigangLu,WeiLi.Numericalinvestigationofpressurefluctuationandrotor-statorinteractioninamultistagecentrifugalpump.ASME2013FluidsEngineeringDivisionSummerMeeting(FEDSM-2013),July7-11,2013,InclineVillage,Nevada,USA.[7]LingZhou,WeigangLu,WeidongShi.PImeasurementsinacompactreturndiffuserundermulti-conditions.6thInternationalConferenceonPumpsandFanswithCompressorsandWindTurbines(ICPF-2013),September19-22,2013,Beijing,China.[8]LingZhou,ZhemingZhang,RameshAgarwal.ProcesssimulationofChemicalLoopingCombustioninASPENPlus,TwelfthAnnualConferenceonCarbonCapture,Utilization&Sequestration,May13-16,2013,Pittsburgh,Pennsylvania,USA.[9]WeigangLu,LingZhou,WeidongShi.Unsteadyflownumericalanalysisofnew-typedeepwellpumpundermulti-conditions.ASME2010FluidsEngineeringDivisionSummerMeeting(FEDSM-2010),August1-4,2010,Montreal,Canada.[10]陆伟刚,周岭,施卫东.新型节能节材井用潜水泵的研究.第四届全国水力机械及其系统学术会议,2011.09,兰州.[11]周岭,陆伟刚,施卫东.紧凑型导叶内部流场的多工况PIV测量.第六届全国水力机械及其系统学术会议,2013.10,杭州.[12]周岭,陆伟刚,施卫东,李伟.多级离心泵的优化设计与内流机理研究.全国流体机械青年学术研讨会暨亚欧青年学者交流会,2016.10,杭州.[13]周岭,陆伟刚,施卫东,李伟.深井泵的优化设计与离散元模拟.第六届气动力学与流体机械青年学者研讨会,2019.05,杭州.现为国际能源署泵技术咨询专家,美国机械工程师学会(ASME)会员、中国农业机械学会会员,期刊AmericanJournalofEngineering&AppliedSciences、InternationalJournalofAppliedEngineeringResearch、TechnologyAuditandProductionReserves编委,AppliedEnergy、RenewableEnergy、EnergyConversion&Management、JournalofFluidsEngineering、InternationalJournalofFluidMechanicsResearch等十余个国际期刊审稿人。标签: 江苏大学 流体机械工程技术研究中心
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