We investigated experimentally the buoyancy driven convection induced by localized central heating from above in cylindrical tanks filled wit liquid metal eutectic alloy (low-Prandtl-number liquid). The experiments were carried out for two aspect ratios A=(radius/height)=4.125 and 0.333. Time-averaged local temperature distributions and radial and azimuthal velocity components in the liquid at different distances from heater axis were measured. It is shown that maximum temperature gradient is centered in vicinity heater. Temperature difference in radial direction creates pressure gradient between heater and cold wall regions. This gradient leads to upraising of liquid nearly heater and its down in vicinity side cold wall. The Nusselt number tends to a nearly constant value at small aspect ratio and increases considerably at large aspect ratio in the range of heat flux density up to 400 W/cm~2. A static homogeneous magnetic field, in the case of large aspect ratio cell, decreases convective heat transfer intensity by 30
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机译:我们通过实验研究了由液态金属低共熔合金(低普朗特数液体)填充的圆筒形储罐中由上方的局部中央加热引起的浮力驱动对流。在两个纵横比A =(半径/高度)= 4.125和0.333的情况下进行了实验。测量了距加热器轴不同距离的液体中的时间平均局部温度分布以及径向和方位速度分量。结果表明,最大温度梯度集中在附近的加热器上。径向温度差会在加热器和冷壁区域之间产生压力梯度。该梯度导致接近加热器的液体升高,并且导致其在附近侧冷壁处下降。在热通量密度高达400 W / cm〜2的范围内,Nusselt数在小长宽比下趋于接近恒定值,而在大长宽比下显着增加。对于长宽比较大的单元,静态均匀磁场会降低对流传热强度30
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