简介：HeattransfercoefficientsinnucleateboilingonasmoothflatsurfaceweremeasuredforpurefluidsofR-134a,propane,isobutaneandtheirbinarymixturesatdifferentpressurefrom0.1to0.6MPa.Seriesofexperimentswithdifferentheatfluxandmixtureconcentrationswerecarriedout.Theinfluencesofpressureandheatfluxontheheattransfercoefficientfordifferentpurefluidswerestudied.Isobutaneandpropanewereusedtomakeupbinarymixtures.Comparedtothepurecomponents,binarymixturesshowlowerheattransfercoefficients.Thisreductionwasmorepronouncedastheheatfluxincreasing.Severalheattransfercorrelationsareobtainedfordifferentpurerefrigerantsandtheirbinarymixtures.

简介：水泡的行为上的可视化研究为水池在压力0.1MPa在一个水平透明加热器上沸腾R141b被执行了。水泡的行为被在加热器表面下面放的一个高速度的照相机记录。离开直径，水泡的离开时间和在不同的热流动的成核地点密度被获得。可视化结果证明水泡离开直径和离开时间减少，当当热流动增加，成核地点密度增加时。没有液体，在实验招募进microlayer，这也被观察。基于试验性的结果，煮曲线因为R141b被使用动态microlayer模型预言。作为结果，在基于动态microlayer，为沸腾的模型和实验数据R141b弄弯的预兆的结果之间的协议擅长高热流动。关键词R141b-热转移-水泡动力学-水池沸腾CLC数字TK124

简介：Amechanismisproposedfornucleatepoolboilingheattransferalongwithageneralmodelforbothpureliquidsandbinarymixtrues.Acombinedphysicalmodelofbubblegrowthisalsoproposedalongwithacorrespondingbubblegrowthmodelforpureliquidsonsmoothtubes.Usingthegeneralmodelandthebubblegrowthmodelforpureliquids,ananalyticaslmodelfornucleatepoolboilingheattransferofpureliquidsonsmoothtubesisdeveloped.

简介：Acombinedphysicalmodelofbubbelgrowthispropsedalongwithacorrespondingbubblegrowthmodelforbinarymixturesonsmoothtubes.UsingthegeneralmodelofWangetal.^[1].andthebubblegrowthmodelforbinarymixtures,ananalyticalmodelfornucleatepoolboilingheattransferofbinarymixturesonsmoothtubesisdeveloped.Inaddition,nucleatepoolboilingheattransferofpureliquidsandbinarymixtruesonahorizontalsmoothtubewasstudiedexperimentally.Thepureliquidsandbinarymixturesincludedwatermethanol,ehanol,andtheirbinarymixtures.Theanalyticalmodelsforbothpureliquidsandbinarymixturesareingoodagreementwiththeexperimentaldata.