已有的研究工作表明：液滴的聚合是加快梯度能表面材料表面上液滴运动和滴状凝结中液滴快速运动的主要原因。

Many researches showed that, the coalescence is the main reason to speed up the movement of drops on the surface with gradient surface energy and separate from the surface in dropwise condensation.

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结果显示，出气边形状的改变影响凝结流中水滴状态、熵增、湿度、出口气流角的分布。

The computations show that the droplets distribution, entropy increase, wetness fraction, and flow angle are changed when the shape of trailing edge varies.

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结果显示，出气边形状的改变影响凝结流中水滴状态、熵增、湿度、出口气流角的分布。

The computations show that the droplets distribution, entropy increase, wetness fraction, and flow angle are changed when the shape of trailing edge varies.

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