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首页> 外文期刊>International Journal of Heat and Mass Transfer >The temperature statistics of a surfactant-covered air/water interface during mixed convection heat transfer and evaporation
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The temperature statistics of a surfactant-covered air/water interface during mixed convection heat transfer and evaporation

机译:对流换热和蒸发过程中表面活性剂覆盖的空气/水界面的温度统计

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摘要

Surface temperature fields were measured of an air/water interface where heat was transferred from the water to the air under mixed convection conditions. The interfacial temperature field was measured using an infrared (IR) camera for mean wind speeds ranging from 0 to 4.0 m/s, in 1.0 m/s increments. Statistics of these surface temperature fields, specifically, the root mean square (rms) and the skewness were obtained. Plots of the rms versus the heat flux showed linear behavior for low wind speeds {U = 0-3 m/s), and the skewness was also found to increase with heat flux for U = 0-3 m/s, although these data exhibited significant scatter. The scaled root mean square temperature was revealed to be governed by the ratio Ra~(1/3)/(Re~(*4/5)Pr~(1/3)) where Ra is the Rayleigh number. Re~* the Reynolds number based on water side friction velocity and Pr is the Prandtl number.
机译:测量了空气/水界面的表面温度场,其中在混合对流条件下热量从水传递到空气。界面温度场是使用红外(IR)相机测量的,平均风速范围为0到4.0 m / s(以1.0 m / s的增量)。获得了这些表面温度场的统计数据,具体而言,获得了均方根(rms)和偏度。均方根值与热通量的关系图显示了在低风速下(U = 0-3 m / s)的线性行为,并且在U = 0-3 m / s的情况下,偏斜度也随热通量的增加而增加表现出明显的分散性。揭示了按比例绘制的均方根温度受比率Ra〜(1/3)/(Re〜(* 4/5)Pr〜(1/3))的控制,其中Ra为瑞利数。根据水侧摩擦速度来计算雷诺数,Pr是普朗特数。

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