Turbulent kinetic energy equation 紊流动能方程
area turbulent kinetic energy 面积湍动能
inflow turbulent kinetic energy 入口湍动能
turbulent kinetic energy closure 湍流动能闭合
turbulent kinetic energy profiles 湍动动能分布
turbulent kinetic energy dissipation 湍动能耗散率
dissipation turbulent kinetic energy 湍流动能耗散率
Using the turbulent data obtained at the height of 10 m in Taklimakan hinterland,this paper analyzes the spring and summer variations characteristics of the turbulent intensity and the turbulent kinetic energy,discusses turbulent supply rate.
利用2006年4月和8月塔中地区近地层10m处的湍流资料,分析了该地区春夏季湍流强度和湍流动能的变化,同时对湍流动能供给率做了讨论。
参考来源 - 塔中近地层春夏季湍强和湍能变化的观测研究This phenomenon could be explained by the theory. Three dimensional velocity and turbulent kinetic energy were gotten.
同时又从理论上解释了这一现象;(3) 得到了三维速度以及湍动能。
参考来源 - 封闭式水泵吸水室内部流场的PIV试验研究·2,447,543篇论文数据,部分数据来源于NoteExpress
Three dimensional velocity and turbulent kinetic energy were gotten.
得到了三维速度以及湍动能。
Based on the tendency equation of turbulent kinetic energy, its simplified equation including only wind shear and air stability was derived.
基于湍流动能倾向方程,推导出了其只含风切变和大气稳定度的简化方程。
Under high rotate speed, the average temperature, pressure, speed and turbulent kinetic energy were higher than those under low rotate speed.
在高转速情况下,缸内气流的平均温度平均速度以及湍流动能都要高于在低转速的工况;
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