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环形液池内中等Pr数流体的浮力-热毛细对流

Buoyant-thermocapillary convection of moderate prandtl number fluid

  • 摘要: 为了了解水平温度梯度作用时环形液池内的浮力-热毛细对流特性,利用有限差分法进行了非稳态三维数值模拟,环形液池外壁被加热,半径为40 mm,内壁被冷却,半径为20 mm,液池深度为3~17 mm,液池内流体为0.65cSt的硅油,其Pr数为6.7. 模拟结果表明,当水平温度梯度较小时,流动为轴对称稳态流动,随着温度梯度的增加,流动将会失去其稳定性,在浅的液池内(d=3mm),转化成三维振荡流动,在深的液池内(d≥6mm),转化成三维稳定流动;模拟计算的临界温差及表面温度分布图像与实验结果基本吻合.

     

    Abstract: In order to understand the nature ofbuoyant-thermocapillary convection in an annular pool with the outer heatedcontainer of radius ro=40 mm and the inner cooled cylinder ofri=20 mm, and an adjustable depth d=3~17 mm, we conducted a series ofunsteady three-dimensional numerical simulations with the finite differencemethod. The pool was filled with the 0.65cSt silicone oil (Prandtl numberPr=6.7). Results show that a small temperature difference in the radialdirection generates steady roll-cell buoyant-thermocapillary flow. Withlarge temperature difference, the simulations can predict two types of flowinstability. In a shallow pool (d=3 mm), the hydrothermal wave characterizedby curved spokes traveling in the azimuthal direction is dominant while indeep pools (d≥6 mm), the three-dimensional stationary instabilityappears. The critical conditions for the onset of the instability flows andthe free surface temperature fluctuation are determined and compared withthe experimental results.

     

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