个人简介
教育经历
2004.9-2008.7,山东大学,能源与动力工程学院,本科;
2008.9-2011.7,中国科学院,工程热物理研究所,硕士研究生;
2011.9-2015.3,香港理工大学,屋宇设备工程学系,博士研究生
工作经历
2018年1月至今,中国石油大学(华东),副教授
2015年4月-2018年1月,中国石油大学(华东),讲师
主讲课程
输气管道设计与管理、建筑节能技术、输气管道课程设计、燃气工程制图
研究项目
(1)2018-2020,直接式污水源热泵回收工业废水余热的关键问题研究,自主创新科研计划,18CX02077A(主持)
(2)2016-2019,直接式油田污水源热泵系统的流动传热特性和优化研究,山东省自然科学基金,ZR2016EEQ29(主持)
(3)2016-2017,中国北方地区建筑围护结构中使用相变材料节能的应用研究,科研启动基金,YJ201501018(主持)
(4)2015-2017,相变材料在睡眠环境个体送风系统中的应用研究,校自主创新科研计划,15CX02111A(主持)
主要成果
累计发表50余篇学术论文,其中SCI收录30篇,EI收录14篇(包括12篇SCI一区论文和3篇ESI高被引论文)。总计被引400余次,H-index15。(GoogleScholar)
联系地址
山东省青岛市黄岛区长江西路66号,中国石油大学(华东),工科楼D209
招生信息
招收具有建筑环境与能源应用工程和能源与动力工程背景的研究生。
备注
ORCID
https://orcid.org/0000-0002-5033-1786
Researchgate
https://www.researchgate.net/profile/Ning_Mao10
研究领域
(1)受限空间热湿传递机理研究;
(2)空气源/污水源热泵系统流动与传热传质研究;
(3)建筑与工业节能技术。
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
2018
(1)SongM,MaoN,DengS.Anexperimentalstudyontime-basedstartdefrostingcontrolstrategyoptimizationforanairsourceheatpumpunitwithfrostevenlydistributedandmeltedfrostlocallydrained.EnergyandBuildings2018;178:26-37.SCI.IF=7.9.(SCI二区)
(2)MaoN,HaoJ,CuiB,LiY,SongM,XuY,DengS.Energyperformanceofabedroomtask/ambientairconditioning(TAC)systemappliedindifferentclimatezonesofChina.Energy2018159:724-736.SCI.IF=4.520.(SCI一区)
(3)SongM,LiaoL,NiuF,MaoN*,LiuS,HuY.ThermalStabilityExperimentalStudyonThreeTypesofOrganicBinaryPhaseChangeMaterialsAppliedinThermalEnergyStorageSystem.JournalofThermalScienceandEngineeringApplications2018;10(4):041018-1.SCI.IF=0.985.(SCI四区)
(4)MaoN,ZhangB,SongM,DengS.AsimplifiednumericalstudyontheenergyperformanceandthermalenvironmentofabedroomTACsystem.EnergyandBuildings2018;166:305-316.SCI.IF=4.067.(SCI二区)
(5)SongM,DangC,MaoN*,DengS.Energytransferprocessioninanairsourceheatpumpunitduringdefrostingwithmeltedfrostlocallydrainageinitsmulti-circuitoutdoorcoil.EnergyandBuildings2018;164:109-120.SCI.IF=4.067.(SCI二区)
(6)MaoN,SongM*,PanD,DengS.ComparativestudiesonusingRSMandTOPSISmethodstooptimizeresidentialairconditioningsystems.Energy2018;144:98-109.SCI.IF=4.520.(SCI一区)
(7)XuY,JiangN,WangQ,MaoN,ChenG,GaoZ.Refrigerantevaluationandperformancecomparisonforanovelhybridsolar-assistedejection-compressionrefrigerationcycle.SolarEnergy2018;160:344-352.SCI.IF=4.018.(SCI二区)
(8)XuY,JiangN*,HanX,HanW,MaoN,ChenG.Performanceevaluationandenergy-savingpotentialcomparisonofaheat-powerednovelcompression-enhancedejectorrefrigerationcyclewithaneconomizer.AppliedThermalEngineering2018,130:1568-1579.SCI.IF=3.444.(SCI二区)
(9)SongM,DengS,DangC,MaoN*,WangZ.Reviewonimprovementforairsourceheatpumpunitsduringfrostinganddefrosting.AppliedEnergy2018;211:1150-1170.SCI.IF=7.900.(SCI一区)
(10)SongM,NiuF,MaoN*,HuY,DengS.Reviewonbuildingenergyperformanceimprovementusingphasechangematerials.EnergyandBuildings2018;158:776-793.SCI.IF=4.067.(SCI二区、ESI高被引论文)
2017
(11)SongM,XuX,MaoN*,DengS,XuY.Energytransferprocessioninanairsourceheatpumpunitduringdefrosting.AppliedEnergy2017;204:679-689.SCI.IF=7.182.(SCI一区)
(12)MaoN,SongM,PanD,LiZ,DengS.Numericalinvestigationsontheeffectsofenvelopethermalloadsonenergyutilizationpotentialandthermalnon-uniformityinsleepingenvironments.BuildingandEnvironment2017;124:232-244.SCI.IF=4.053.(SCI二区)
(13)MaoN,PanDM,SongM*,LiZ,XuY,DengS.OperatingoptimizationforimprovedenergyconsumptionofaTACsystemaffectedbynighttimethermalloadsofbuildingenvelopes.Energy2017;133:491-501.SCI.IF=4.520.(SCI一区)
(14)MaoN,PanDM,LiZ,XuY,SongM*,DengS,Anumericalstudyoninfluencesofbuildingenvelopeheatgainonoperatingperformancesofabed-basedtask/ambientairconditioning(TAC)systeminenergysavingandthermalcomfort,AppliedEnergy2017;192:213-221.SCI.IF=7.182.(SCI一区、ESI高被引论文)
(15)SongM,GongG,MaoN*,DengS,WangZ,Experimentalinvestigationonanairsourceheatpumpunitwithathree-circuitoutdoorcoilforitsreversecycledefrostingterminationtemperature.AppliedEnergy2017,204:1388-1398.SCI.IF=7.182.(SCI一区)
(16)MaoN,SongMJ*,DengSM.Computationalfluiddynamicsanalysisofconvectiveheattransfercoefficientsforasleepinghumanbodyinsubtropics.AppliedThermalEngineering2017;117:385-396.SCI.IF=3.356.(SCI二区、ESI高被引论文)
(17)MaoN,PanDM*,ChanMY,DengSM,Parameteroptimizationforoperationofabed-basedtask/ambientairconditioning(TAC)systemtoachieveathermallyneutralenvironmentwithminimumenergyuse,IndoorandBuiltEnvironment2017;26:132-144.SCI.IF=1.181.(SCI三区)
(18)MaoN,HaoJ,SongM,PanD.InvestigationsonthermalenvironmentinresidentialbuildingswithPCMembeddedinexternalwall.EnergyProcedia.2017.142,1888-1895.EI.
(19)LiuS,SongM,BaiB,TianY,SongM,MaoN.ExperimentalStudyonR245faCondensationHeatTransferinHorizontalSmoothTubeandEnhancedTube.EnergyProcedia2017;142:4169-4175.EI.
2016
(20)MaoN,SongM*,DengS,PanD,ChenSJ.Experimentalandnumericalstudyonairflowandmoisturetransportinsleepingenvironmentswithatask/ambientairconditioning(TAC)system.EnergyandBuildings2016;133:596-604.SCI.IF=4.067.(SCI二区)
(21)MaoN,SongMJ*,DengSM.ApplicationofTOPSISmethodinevaluatingtheeffectsofsupplyvaneangleofatask/ambientairconditioningsystemonenergyutilizationandthermalcomfort.AppliedEnergy,2016,180:536-545.SCI.IF=5.613.(SCI一区)
(22)MaoN,SongMJ,ChanMY,PanDM*,DengSM,Computationalfluiddynamics(CFD)modellingofairflowfield,meanageofairandCO2distributionsinsideabedroomwithdifferentheightsofconditionedairsupplyoutlet.AppliedEnergy2016;164:906-915.SCI.IF=5.613.(SCI一区)
(23)SongMJ,MaoN*,DengSM,ChenY,WangC,YangQC.Experimentalinvestigationsondestroyingsurfacetensionofmeltedfrostfordefrostingperformanceimprovementofamulti-circuitoutdoorcoil.AppliedThermalEngineering2016;103:1278-1288.SCI.IF=3.356.(SCI二区)
(24)SongMJ,XiaL,MaoN*,DengSM,.Anexperimentalstudyonevenfrostingperformanceofanairsourceheatpumpunitwithamulti-circuitoutdoorcoil.AppliedEnergy2016;164:36-44.SCI.IF=5.613.(SCI一区)
(25)SongMJ,DengSM,MaoN*,YeXM.Anexperimentalstudyondefrostingperformanceforanairsourceheatpumpunitwithahorizontallyinstalledmulti-circuitoutdoorcoil.AppliedEnergy,2016;165:371-382.SCI.IF=5.613.(SCI一区)
(26)SongMJ,ChenA,MaoN*.Anexperimentalstudyondefrostingperformanceofanairsourceheatpumpunitwithamulti-circuitoutdoorcoilatdifferentfrostingevennessvalues.AppliedThermalEngineering2016;94:331-340.SCI.IF=3.444.(SCI二区)
(27)SongMJ,MaoN*,DengSM,XiaYD,ChenY.Anexperimentalstudyondefrostingperformanceforanairsourceheatpumpunitatdifferentfrostingevennessvalueswithmeltedfrostlocaldrainage.AppliedThermalEngineering2016;99:730-740.SCI.IF=3.444.(SCI二区)
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