个人简历

个人概况
主要从事微尺度相变传热、电子设备热管理和低品位余热回收等研究，目前主持国家自然科学基金项目1项，中国博士后科学基金面上项目1项，山东省博士后创新项目1项，作为项目骨干参与国家重点研发计划项目2项、973课题1项、国家自然科学基金重点项目1项目、面上项目1项，发表SCI论文近20篇，获2018年吴仲华优秀研究生奖。
教育经历
2012年-2018年，重庆大学大学，动力工程学院，动力工程及工程热物理专业，博士
2008年-2012年，重庆大学大学，动力工程学院，热能与动力工程专业，学士
工作经历
2018年9月-今，中国石油大学（华东），能源与动力工程系，师资博士后

承担科研项目
1.2020.1-2022.12，国家自然科学基金青年基金“液-液相分离工质在微通道内多相流动传热特性及分离过程调控机制”主持；
2.2019.11-2020.9，山东省博士后创新基金“LCST溶液相分离过程中多相能质传输机理及过程调控”主持；
3.2018.11-2020.9，中国博士后科学基金面上项目“低熔点合金相变换热机理及过程强化”主持；
4.2020.1-2024.12，国家自然科学基金重点基金“增强型地热系统热-流-力-化四场耦合热质传输机理研究”项目骨干；
5.2017.7-2020.6，国家重点研发计划子课题“液态熔渣相变换热与物相演化耦合作用机制”项目骨干；
6.2017.7-2020.6，国家重点研发计划课题“液态熔渣高效离心粒化技术及其自适应调控方法”项目骨干；
7.2017.1-2020.12，国家自然科学基金面上基金“电场力作用下液滴撞击过冷环境中发热体表面凝固相变传热机理及特性”项目骨干；
8.2016.7-2019.6，国家重点研发计划课题“高温高含尘烟气连续高效余热深度回收术”项目骨干；
9.2012.12-2016.9，国家重点基础研究发展计划课题“基于物料品质调控的高温熔渣余热回收能质传输机理”项目骨干；
获奖情况
1.2018年吴仲华优秀研究生奖
2.2018年重庆大学研究生十大学术之星
3.2017年博士研究生国家奖学金
4.唐立新奖学金

研究领域

1.微尺度相变传热
2.电子设备热管理
3.低品位余热回收
4.设备防结冰

近期论文

期刊论文：
[1]LiangGong,Yu-PengXu,BinDing*,Zhi-HaoZhang,Zhao-QinHuang.ThermalManagementandStructuralParametersOptimizationofMCM-BGA3DPackageModel[J],InternationalJournalofThermalSciences,2020,147,106120.(SCI二区,IF=3.488)
[2]Xin-YueDuan,Fang-BoLi,BinDing*,LiangGong,Ming-HaiXu.HeatTransferCharacteristicsandFieldSynergyAnalysisofGas-liquidTwo-phaseFlowinMicro-channels[J],JournalofThermalAnalysisandCalorimetry,2019.(SCI四区,IF=2.471)
[3]BinDing,HongWang*,XunZhu,RongChen,QiangLiao.Waterdropletimpactonsuperhydrophobicsurfaceswithvariousinclinationsandsupercoolingdegrees[J],InternationalJournalofHeatandMassTransfer,2019,138,841-851.(SCI二区Top,IF=4.346)
[4]BinDing,XunZhu*,HongWang*,Xian-YanHe,YuTan,QiangLiao.PredictiononCrystallizationbehaviorsofBlastFurnaceSlaginaPhaseChangeCoolingProcesswithCorrectedOpticalBasicity[J],Fuel,2018,223,360-365.(SCI二区Top,IF=5.128)
[5]BinDing,HongWang*,XunZhu,RongChen,QiangLiao.HowSupercooledSuperhydrophobicSurfacesAffectDynamicBehaviorsofImpactingWaterDroplets?[J],InternationalJournalofHeatandMassTransfer,2018,124,1025-1032.(SCI二区Top,IF=4.346)
[6]BinDing,XunZhu*,HongWang*,Xian-YanHe,YuTan.NumericalInvestigationonPhaseChangeCoolingandCrystallizationofaMoltenBlastFurnaceSlagDroplet[J],InternationalJournalofHeatandMassTransfer,2018,118,471-479.(SCI二区Top,IF=4.346)
[7]XunZhu*,BinDing,HongWang*,Xian-YanHe,YuTan,QiangLiao.NumericalStudyonSolidificationBehaviorsofaMoltenSlagDropletintheCentrifugalGranulationandHeatRecoverySystem[J],AppliedThermalEngineering,2018,130,1033-1043.(SCI二区Top,IF=4.026)
[8]XunZhu*,BinDing,HongWang*,Xian-YanHe,YuTan,QiangLiao.PhaseEvolutionofBlastFurnaceSlagswithVariousBinaryBasicityinaVariableCoolingProcess[J],Fuel,2018,219,132-140.(SCI二区Top,IF=5.128)
[9]BinDing,XunZhu*,HongWang,Xian-YanHe,YuTan.ExperimentalStudyonPhaseChangeHeatTransferCharacteristicsofAlloys[J],InternationalJournalofHeatandMassTransfer,2017,105,261-269.(SCI二区Top,IF=4.346)
[10]BinDing,HongWang*,XunZhu*,Xian-YanHe,YuTan,QiangLiao.PhaseChangeCoolingandCrystallizationCharacteristicsofBlastFurnaceSlagsunderVariousMgO/Al2O3Ratios[J],Energy&Fuels,2017,31,10212-10221.(SCI二区Top,IF=3.021)
[11]HongWang,BinDing,XunZhu*,YuTan,Xian-YanHe,QiangLiao.InfluenceofAl2O3ContentonCrystallizationBehaviorsofBlastFurnaceSlagsinDirectionalSolidificationProcess[J],InternationalJournalofHeatandMassTransfer,2017,113,286-294.(SCI二区Top,IF=4.346)
[12]HongWang,BinDing,Xiao-yingLiu,XunZhu*,Xian-YanHe,QiangLiao.SolidificationBehaviorsofaMoltenBlastFurnaceSlagDropletCooledbyAir[J],AppliedThermalEngineering,2017,127,915-924.(SCI二区Top,IF=4.026)
[13]BinDing,HongWang*,XunZhu,Xian-YanHe,QiangLiao,YuTan.CrystallizationBehaviorsofBFSlaginPhaseChangeCoolingProcess[J],Energy&Fuels,2016,30(4),3331-3339.(SCI二区Top,IF=3.021)
[14]Xian-YanHe,XunZhu*,HongWang,YuTan,BinDing,LiaoQiang.Experimentalvisualizationandtheoreticalanalysisofthedynamicimpactbehaviorofamoltenblastfurnaceslagdropletondifferentsurfaces[J].AppliedThermalEngineering,2019,147:1-9.(SCI二区Top,IF=4.026)
[15]Ji-hongShi,LiangGong*,Shu-yuSun,Zhao-qinHuang,BinDing,JunYao.Competitiveadsorptionphenomenoninshalegasdisplacementprocesses[J].RSCAdvances,2019,9(44):25326-25335.(SCI三区,IF=3.049)
[16]YuTan,XunZhu*,Xian-YanHe,BinDing,HongWang*,QiangLiao,HuaLi.Granulationcharacteristicsofmoltenblastfurnaceslagbyhybridcentrifugal-airblasttechnique[J],PowderTechnology,2018,363,176-185.(SCI二区,IF=3.413)
[17]YuTan,XunZhu*,HongWang,Xian-YanHe,BinDing,LiaoQiang.Centrifugalgranulationcharacteristicsofmoltenblastfurnaceslagandperformanceofthegranulatedparticles[J].AppliedThermalEngineering,2018,142:683-694.(SCI二区Top,IF=4.026)
[18]BinLin,HongWang,XunZhu*,QiangLiao,BinDing.Crystallizationpropertiesofmoltenblastfurnaceslagatdifferentcoolingrates[J],AppliedThermalEngineering2016,96,432-440.(SCI二区Top,IF=4.026)
[19]Jun-JunWu,HongWang*,XunZhu*,QiangLiao,BinDing.Centrifugalgranulationperformanceofliquidwithvariousviscositiesforheatrecoveryofblastfurnaceslag[J],AppliedThermalEngineering2015,89,494-504.(SCI二区Top,IF=4.026)
[20]丁斌，王宏*，张挥，朱恂，廖强.低熔点合金相变换热特性实验研究[J].工程热物理学报,2014,35(8):1642-1645.(EI收录)
国际会议论文：
[1]BinDing,Ze-kaiGu,YongGuo,LiangGong*.HowMushyZoneAffecttheThermalPerformanceofLow-meltingAlloy,ICAE2019,Västerås,Sweden,2019.8.
[2]BinDing,HongWang*,XunZhu*,Xian-YanHe,YuTan,QiangLiao.InfluenceofMainComponentsonSolidificationBehaviorsofBlastFurnaceSlagDropletinVariableCoolingConditions,IHTC16,Beijing,China,2018.8.
[3]BinDing,HongWang*,XunZhu*,Xian-YanHe,YuTan,QiangLiao.EffectofMainComponentsonCrystallizationBehaviorsofBlastFurnaceSlagDropletinPhaseChangeCoolingProcess,ACTS2017,Jeju,Korea,2017.3.