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水雾/蒸汽相变冲击冷却的数值模拟

DOI: 10.3969/j.issn.1006-7043.2009.10.003

Keywords: 相变 冲击冷却 水滴 数值模拟 phase change impingement cooling drop numerical simulation

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Abstract:

利用ANSYS-CFX软件对T.Wang等人实验研究的水雾/蒸汽相变冲击冷却系统进行了数值模拟.并与蒸汽单相冲击冷却数值计算结果进行比较,数值研究水雾对冷却的强化作用.相变计算过程中,蒸汽作为连续相,直径为5 μm的水滴作为离散相;水滴在接近高温壁面过程中吸收汽化潜热,发生相变,变为水蒸气,以此达到强化冷却的作用.数值分析结果与实验数据比较接近,壁面加热热流为3 000 W/m~2,加入4%浓度水滴的结果表明,由于水雾的作用在滞止点附近热传导系数比蒸汽单项冷却提高130%左右,在远离滞止点区域冷却效果减弱,在距离滞止区6倍喷射宽度时,冷却效果减少到可以忽略的水平;水滴的汽化吸收的热量对于冷却作用的贡献比较大.

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