方赵嵩
近期热点
资料介绍
个人简历
基本信息:方赵嵩,1982年5月生,籍贯广东省普宁市,博士(博后)教育背景:2015年5月-2017年5月,博士后,香港城市大学2010年9月-2014年6月,博士,供热、供燃气、通风及空调工程,重庆大学2006年9月-2008年12月,硕士,供热、供燃气、通风及空调工程,重庆大学2001年9月-2005年6月,学士,建筑环境与设备工程专业,广州大学工作经历:2014年7月-至今,广州大学土木工程学院建筑设备工程系任教,现任副系主任主讲课程:建筑环境学、冷热源工程主要成果简介:主持国家自然科学基金面上项目1项,广州市科技计划项目1项,建筑安全与环境国家重点实验室暨国家建筑工程技术研究中心开放基金资助课题1项;参与“十三五”国家重点研发计划重大专项1项,国家自然科学基金青年基金1项;近五年发表学术论文23篇,SCI22篇,其中JCR一区17篇;第一作者+通讯发表18篇。已授权发明专利1项;作为副主编主撰写机械工业出版社出版的《空调冷热源工程》;参编2019《广东省居住建筑节能标准》.任广东省制冷学会副秘书长,《制冷》杂志责任编辑,BuildingandEnvironment,EnergyandBuildings,scienceofTotalEnvironment,InternationalJournalofRefrigeration,ScienceoftheTotalEnvironment,SustainableCitiesandSociety,IndoorandBuiltEnvironment,JournalofBuildingEngineering,InternationalJournalofDisasterRiskReduction等多个国际SCI期刊的通讯审稿人。主要科研项目:1.国家自然科学基金面上项目,亚热带室外高温作业环境下的人体热应激适应机制与预测研究,2020/1-2023/12,在研,主持2.广州市科技计划项目,基于多目标优化圆孔翅片管式换热器的抑霜机理与热泵系统运行控制研究,2018/4-2020/4,在研,主持3.建筑安全与环境国家重点实验室暨国家建筑工程技术研究中心开放基金资助课题,高效翅片管空气源热泵结霜和抑霜机理与优化运行研究,2019/1-2020.12,在研,主持4.“十三五”国家重点研发计划子课题,村镇建筑地暖节能配套材料与可再生能源利用技术研究,2018/12-2022/12,在研,参与5.国家自然科学基金青年项目,基于空气冷凝除湿过程中超细颗粒粒径增大的空气过滤系统优化研究,2019/1-2021/12,参与获奖情况1.2019年广州市青年后备人才;2.重庆市优秀博士论文(约重庆市前5%,2016);3.重庆市优秀硕士论文(约重庆市前5%,2010);4.指导学生获2019全国CAR-ASHRAE学生设计大赛二等奖;5.指导学生获2018全国CAR-ASHRAE学生设计大赛三等奖;6.指导学生获第十五届MDV中央空调设计应用大赛设计达人奖。研究领域
建筑环境热安全与热舒适评价、强化传热与空调系统节能近期论文
[1].ZhouC,FangZ*,XuX,ZhangX,DingY,JiangX,JiY,UsingLongShort-TermMemoryNetworkstoPredictEnergyConsumptionofAir-conditioningSystems,SustainableCitiesandSociety,2020,102000[2].ZhangY,ZhouX,ZhengZ,OladokunMO,FangZ*,Experimentalinvestigationintotheeffectsofdifferentmetabolicratesofbodymovementonthermalcomfort,BuildingandEnvironment,2020,168,10648[3].FangZ,FengX,XuX,ZhouX,LinZ,JiY,InvestigationintooutdoorthermalcomfortconditionsbydifferentseasonalfieldsurveysinChina,Guangzhou,InternationalJournalofBiometeorology,2019,63(10),1357-1368[4].FangZ,XuX,ZhouX,DengS,WuH,LiuJ,LinZ,Investigationintothethermalcomfortofuniversitystudentsconductingoutdoortraining,BuildingandEnvironment149(2019)26-38.[5].FangZ,FengX,ZhengZ,ZhouX,LiL,HuangY,WangH,LiuF,ExperimentalstudyonperformanceoptimizationofairsourceheatpumpusingDOEmethod,ExperimentalHeatTransfer11(2018).[6].FangZ,FengX,LiuJ,LinZ,MakCM,NiuJ,TseKT,XuX,Investigationintothedifferencesamongseveraloutdoorthermalcomfortindicesagainstfieldsurveyinsubtropics,SustainableCitiesandSociety44(2019)676-690.[7].ZhangS,ChengY,FangZ,LinZ,Dynamiccontrolofroomairtemperatureforstratumventilationbasedonheatremovalefficiency:Methodandexperimentalvalidations,BuildingandEnvironment140(2018)107-118.[8].FangZ,ZhangS,ChengY,FongAML,OladokunMO,LinZ,WuH,Fieldstudyonadaptivethermalcomfortintypicalairconditionedclassrooms,BuildingandEnvironment133(2018)73-82.[9].FangZ,XuX,LiQ,YouX,OladokunMO,Aninvestigationofairandwaterdualadjustmentdecouplingcontrolofsurfaceheatexchanger,AppliedThermalEngineering133(2018)418-427[10].FangZ,LiuH,LiB,TanM,OlaideOM,Experimentalinvestigationonthermalcomfortmodelbetweenlocalthermalsensationandoverallthermalsensation,EnergyandBuildings158(2018)1286-1295.[11].FangZ,LinZ,MakCM,NiuJ,TseKT,Investigationintosensitivitiesoffactorsinoutdoorthermalcomfortindices,BuildingandEnvironment128(2018)129-142.[12].FangZ,LiuH,LiB,DuX,BaldwinA,Investigationoftheeffectsoftemperatureforsuppliedairfromanpersonalnozzlesystemonthermalcomfortorairtravelers,BuildingandEnvironment126(2017)82-97.[13].FangZ,LiuH,LiB,BaldwinA,Investigationofthermalcomfortandthenozzleusagebehaviorinaircraftcabins,IndoorandBuiltEnvironment10(2017)1-15.[14].FangZ,FengX,LinZ,InvestigationofPMVModelforEvaluationoftheOutdoorThermalComfort,ProcediaEngineering205(2017)2457-2462.[15].FangZ,LiuH,LiB,ChengY,Thermalcomfortandskintemperatureresponsestothesuppliedairfrompersonalairnozzlesinaircraftcabins,IndoorandBuiltEnvironment,2017,27(6),831-835.[16].FangZ,LiL,ChengY,WangH,OladokunMO,Investigationonthermal-hydraulicperformanceofoutdoorheatexchangerinairsourcesheatpump,ExperimentalThermalandFluidScience,2017,84(6),28-38.[17].FangZ,LiuH,LiB,BaldwinA,WangJ,XiaK,ExperimentalInvestigationofPersonalAirSupplyNozzleUseinAircraftCabins,AppliedErgonomics,2015,47(c):193-202.[18].FangZ,LiN,LiB,LuoG,HuangY,Theeffectofbuildingenvelopeinsulationoncoolingenergyconsumptioninsummer,EnergyandBuildings,2014,77(c):197-205.[19].FangZ,WangH,ZhangJ,WuW,TheExperimentalAnalysisonFrostingCharacteristicofSK-typeFinnedRefrigeratingHeatExchangerwithLarge-diameterCircularHoles,AppliedThermalEngineering,2014,64(1-2):192-200.[20].FangZ,LiN,LiB,LiuH,YanD,LiuF,KongF.Experimentalresearchontheattenuationrulesofpersonalizedair-conditioningnozzlejetflowinaircraftcabins,TheInternationalJournalofventilation,2013,12(3):285-295.[21].WuW,FangZ,JiW,WangH,Optimaloperationconditiondivisionwithprofitandlossesanalysisofenergyrecoveryventilator,EnergyandBuilding,2015,124(4):203-209.[22].ZhangS,ChengY,FangZ,HuanC,LinZ,Optimizationofroomairtemperatureinstratum-ventilatedroomsforboththermalcomfortandenergysaving,AppliedEnergy204(2017)420-431.[23].WuY,LiuH,LiB,ChengY,TanD,FangZ,Thermalcomfortcriteriaforpersonalairsupplyinaircraftcabinsinwinter,BuildingandEnvironment125(2017)373-382.标签: 广州大学 计算机科学与网络工程学院
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