The results show that the condensation coefficient decreases with the increase of the temperature.
模拟结果表明,不同模型得到的凝结系数都随温度的升高而减小。
And the increase of the condensation heat transfer coefficient became to be larger when corona discharge happened.
在有电晕放电的情况下,凝结换热系数增加加快。
There isn ta general accepted method to calculate the effect of air on the condensation heat transfer coefficient so far.
空气量对蒸汽凝结放热系数影响的计算,目前还没有一个人们普遍公认的计算方法。
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