陈胜 - 武汉理工大学 - 汽车工程学院

个人简介

教育背景： 2005年华中科技大学博士（硕博连读） 2000年华中科技大学学士工作经历： 2019年-武汉理工大学教授，博士生导师 2016年-2019年诺丁汉大学讲师 2012年-2013年伦敦城市学院牛顿学者 2009年-2016年华中科技大学副教授 2008年-2009年布伦瑞克理工洪堡学者项目情况：主持国家自然科学基金项目两项主持教育部博士点基金一项参与项目若干

研究领域

1.传热传质模拟2.低碳能源3.反应多相流动模拟、燃烧与排放

近期论文

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发表SCI论文90余篇，H指数25。论文节选如下 1)CleanEnergiesandTechnologiesforPowerSystems [1]Chen,S*.,Liu,H.,Zheng,C.G.(2017):MethanecombustioninMILDoxyfuelregime:Influencesofdilutionatmosphereinco-flowconfiguration.Energy121,159 [2]Liu,J.,Liu,Z.,Chen,S.,etal..(2017):Anumericalinvestigationonflamestabilityofoxy-coalcombustion:Effectsofblockageratio,swirlnumber,recycleratioandpartialpressureratioofoxygen.InternationalJournalofGreenhouseGasControl57,63 [3]Liu,Y.,Chen,S*.,Liu,S.,etal.(2016):Methanecombustioninvariousregimes:Firstandsecondthermodynamic-lawcomparisonbetweenair-firingandoxyfuelcondition.Energy115,26 [4]Tu,Y.,Su,K.,Liu,H.,Chen,S.,etal.(2016):PhysicalandChemicalEffectsofCO2AdditiononCH4/H2FlamesonaJetinHotCoflow(JHC)Burner.EnergyFuels30,1390 [5]Liu,Y.,Chen,S*.,Yang,B.,etal.(2015):Firstandsecondthermodynamic-lawcomparisonofbiogasMILDoxy-fuelcombustionmoderatedbyCO2orH2O.EnergyConversionandManagement106,625 [6]Tu,Y.,Liu,H.,Chen,S.,etal.(2015):EffectsoffurnacechambershapeontheMILDcombustionofnaturalgas.Appl.Therm.Eng.76,64 [7]Tu,Y.,Liu,H.,Su,K.,Chen,S.,etal.(2015):NumericalstudyofH2Oadditioneffectsonpulverizedcoaloxy-MILDcombustion.FuelProcessingTechnology,138,252-262 [8]Tu,Y.,Liu,H.,Chen,S.,Liu,Z.,andZheng,C.G.(2015):Numericalstudyofcombustioncharacteristicsforpulverizedcoalunderoxy-MILDoperation.FuelProcess.Technol.135,80 [9]Wang,L.,Liu,Z.,Chen,S.,Zheng,C.G.andLi,J.(2013):PhysicalandChemicalEffectsofCO2andH2OAdditivesonCounterflowDiffusionFlameBurningMethane.EnergyFuels27,7602 [10]Chen,S*.,Mi,J.,Liu,H.andZheng,C.G.(2012):Firstandsecondlawanalysisofhydrogen-aircounter-flowdiffusioncombustioninvariouscombustionmodes.Int.J.Hydrog.Energy37,5234 [11]Liu,J.,Chen,S.,Liu,Z.,Peng,K.,Zhou,N.,Huang,X.,Zhang,T.andZheng,C.G.(2012):MathematicalModelingofAir-andOxy-CoalConfinedSwirlingFlamesonTwoExtendedEddy-DissipationModels.Ind.Eng.Chem.Res.51,691 [12]Wang,L.,Liu,Z.,Chen,S.andZheng,C.G.(2012):ComparisonofdifferentglobalcombustionmechanismsforuseinCFDmodelingunderhotanddilutedoxidationcondition.Combust.Sci.Technol.184,259 [13]Chen,S*.andZheng,C.G.(2011):Counterflowdiffusionflameofhydrogen-enrichedbiogasunderMILDoxy-fuelcondition.Int.J.Hydrog.Energy36,15403 [14]Li,P.,Mi,J.,Dally,B.B.,Wang,F.,Wang,L.,Liu,Z.,Chen,S.andZheng,C.G.(2011):ProgressandrecenttrendinMILDcombustion.Sci.ChinaSer.E-Technol.Sci.54,255 [15]Chen,S*.(2010):Analysisofentropygenerationincounter-flowpremixedhydrogen-aircombustion.Int.J.Hydrog.Energy35,1401 [16]Chen,S*.Li,J.,Han,H.F.,Liu,Z.H.andZheng,C.G.(2010):Effectsofhydrogenadditiononentropygenerationinultra-leancounter-flowmethane-airpremixedcombustion.Int.J.Hydrog.Energy35,3891 [17]Chen,S*.,Han,H.F.,Liu,Z.H.,Li,J.andZheng,C.G.(2010):Analysisofentropygenerationinnon-premixedhydrogenversusheatedaircounterflowcombustion,Int.J.Hydrog.Energy35,4736 [18]Chen,S*.,Liu,Z.,Liu,J.,Li,J.,Wang,L.andZheng,C.G.(2010):Analysisofentropygenerationinhydrogen-enrichedultra-leancounter-flowmethane–airnon-premixedcombustion.Int.J.Hydrog.Energy35,12491 [19]Chen,S*.,Liu,Z.,Zhang,C.,He,Z.,Tian,Z.,Shi,B.andZheng,C.G.(2006):AsimplelatticeBoltzmannschemeforlowMachnumberreactiveflows.Sci.ChinaSer.E-Technol.Sci.49,714 [20]Chen,S*.,Liu,Z.,He,Z.,Zhang,C.,Tian,Z.,Shi,B.andZheng,C.G.(2006):ANovelLatticeBoltzmannModelForReactiveFlowswithFastChemistry.Chin.Phys.Lett.23,656 [21]ZhangC.,Chen,S.,Zheng,C.G.andLou,X.(2007):Thermoeconomicdiagnosisofacoalfiredpowerplant.EnergyConv.Manag.48,405 2)Multiphaseflow [22]Yang,B.,Chen,S*.(2018):SimulationofinteractionbetweenafreelymovingsolidparticleandafreelymovingliquiddropletbylatticeBoltzmannmethod.Int.J.HeatMassTransf.127,474 [23]Gong,W.Yan,Y.Chen,S.Wright,E.(2018):AmodifiedphasechangepseudopotentiallatticeBoltzmannmodel.Int.J.HeatMassTransf.125,323 [24]Gong,W.Yan,Y.Y.Chen,S.(2018):AstudyontheunphysicalmasstransferofSCMPpseudopotentialLBM.Int.J.HeatMassTransf.,123,815 [25]Yang,B.,Chen,S*.,KaiLiu.(2017):DirectnumericalsimulationsofparticlesedimentationwithheattransferusingtheLatticeBoltzmannmethod.Int.J.HeatMassTransf.104,419 [26]Yang,B.,Chen,S*.,Xiong,Y.,etal.(2017):Sizeandthermaleffectsonsedimentationbehaviorsoftwospheres.Int.J.HeatMassTransf.,114,198 [27]Gong,W.,Zu,Y.,Chen,S.,Yan,Y.Y.(2017):WettingTransitionEnergyCurvesforaDropletonaSquare-PostPatternedSurface.ScienceBulletin62,136 [28]Gong,W.Yan,Y.Y.Chen,S,etal.(2017):NumericalStudyofWettingTransitionsonBiomimeticSurfacesUsingaLatticeBoltzmannApproachwithLargeDensityRatio.J.BionicEng.14,486 [29]Gong,W.,Chen,S.,Yan,Y.Y.(2017):AThermalImmiscibleMultiphaseFlowSimulationbyLatticeBoltzmannMethod.Int.Comm.HeatMassTransf.88,136 [30]Yang,B.,Chen,S*.,Cao,C.,etal.(2016):LatticeBoltzmannsimulationoftwocoldparticlessettlinginNewtonianfluidwiththermalconvection.Int.J.HeatMassTransf.,93,477 [31]Cao,C.,Chen,S.,Li,J.Liu,Z.,Zha,L.,Bao,S.,andZhengC.G.(2015):SimulatingtheinteractionsoftwofreelysettlingsphericalparticlesinNewtonianfluidusinglattice-Boltzmannmethod.Appl.Math.Comput.250,533 [32]Bao,S.,Chen,S.*,Liu,Z.,Li,J.,Wang,H.andZhengC.G.(2012):Simulationoftheflowaroundanupstreamtransverselyoscillatingcylinderandastationarycylinderintandem.Phys.Fluids24,023603 [33]Bao,S.,Chen,S.,Liu,Z.andZhengC.G.(2012):LatticeBoltzmannsimulationoftheconvectiveheattransferfromastream-wiseoscillatingcircularcylinder.Int.J.HeatFluidFlow37,147 [34]Chen,S.,Liu,Z.,Shi,B.andZheng,C.G.(2006):Computationofgas-solidflowsbyfinitedifferenceBoltzmannequation.Appl.Math.Comput.173,33 [35]Chen,S.,Liu,Z.,Shi,B.,He,Z.andZheng,C.G.(2005):Anovelincompressiblefinite-differenceLatticeBoltzmannequationforparticle-ladenflow.ActaMech.Sin.21,574 [36]Chen,S.,Liu,Z.,Shi,B.andZheng,C.G.(2005):ExternalBodyForceinFiniteDifferenceLatticeBoltzmannMethod.J.Hydrodynamics17,473 [37]Chen,S.,Shi,B.,Liu,Z.,He,Z.,Guo,Z.L.andZheng,C.G.(2004):Lattice-Boltzmannsimulationofparticle-ladenflowoverabackward-facingstep.Chin.Phys.13,1657