为计算电厂烟风道设计中常见异形件的阻力,采用计算流体动力学方法研究了典型异形件的阻力系数。
The research indicates that, the method of Computational Fluid Dynamics can calculate the drag coefficient of the irregular parts in air and flue gas ducts appropriately.
利用光滑粒子流体动力学方法,计算了金属表面沟槽在冲击下的微射流现象,详细讨论了微射流对加载波前沿宽度的依赖性。
With smoothed particle hydrodynamics, we calculate the formation of micro-jet from the groove of metal surface, and reveal the dependence on the width of loading wave front.
在流体动力学中多数问题可通过后一种方法解决,这意味着流体可被看做是一种连续体——也就是说,流体是一种假设的连续性物质。
In most problems in fluid dynamics the latter approach is possible, which means that the fluid can be regarded as a continuum-that is, a hypothetically continuous substance.
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