The pressure drop of pipe increases with increasing of flux, liquid density, liquid viscosity, particle density and particle volume density.

管路压降随着流量、颗粒密度、颗粒初始加入量及液相介质密度和粘度增大而增大。

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The mass-transfer equations of the liquid-drop and liquid-film in the model are disintegrated by the method of controlled-volume. The numerical methods of solution are also presented.

采用控制容积法将模型推导出的液滴和液膜的传质方程离散化，并分别给出了其数值解法。

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