在含水率较高的大排量浅井中,流体的惯性效应使设备负荷增加,并降低了泵效。
Fluid inertia effects increase equipment loading and reduce efficiency in high rate shallow Wells with high water production.
采用欧拉双流体模型,运用计及颗粒团聚效应的能量最小多尺度模型改进气固相间曳力。
By taking cluster effects into account, it USES the energy-minimization multi-scale model to improve the drag force between gas and solid.
所设计的离心粒化设备主要利用了流体的强迫涡及离心运动效应原理。
The centrifugal graining equipment that we design mainly USES liquid compelling whorl and centrifugal movement effect principle.
应用推荐