In this paper, an equation system of EHD based on the fluid motion equations is discussed.
本文以流体力学运动方程为基础,讨论了电流体力学的方程体系。
Coupled with fluid equations for the electron and ion motion, the microwave discharge courses are calculated.
耦合电子、离子运动的流体方程,对微波等离子体的初始形成过程进行了数值模拟计算。
According to the ensemble theory of quantum mechanics, such classical equations describe the motion of fluid.
按照量子力学的系综理论,这样的经典形式的运动方程实际上是流体方程。
This paper presents the equations of fluid motion on the cross-belt concentrator and gives their solutions.
本文介绍了横流皮带选矿机选别时液流运动方程及其求解。
According to the basic motion equations of the earth's fluid core, the convection of the fluid core has been simulated by use of Finite Element Method (FEM).
根据地球液核基本运动方程,采用有限元方法对液核流体的对流状态进行了数值模拟。
In the third chapter, we consider the equations governing the motion of second grade fluid and averaged equations.
第三章研究二阶流体运动的控制方程和平均欧拉方程。
The incompressible, Newtonian fluid flow equations are solved using finite element method. The free surface motion of molten metal is tracked by the volumetric function approach.
使用有限法求解不可压缩牛顿流体流动控制方程,用体积函数法跟踪金属液自由表面的移动,预测了机体充型过程的流动速度场和温度场。
The motion equations of sealed liquid and magnetic liquid which is considered to be non-Newton fluid in magnetic liquid seal were solved respectively and their speed distributions were got.
分别求出了磁液动密封中磁液和被密封液体的速度分布,特别是磁液作为非牛顿流体运动方程的解,并计算了两相液体界面的速度差。
From this, the motion equations of the raft with viscoelastic materials and the motion equations of the cylinder submerged in an infinite fluid are obtained respectively.
在此基础上,分别推导了带有粘弹性材料的筏架结构和艇体与声学介质耦合的动力学运动方程序。
Using moment method, combined with Boltzmann equation, a set of fluid kinetics equations is used to describe the motion of particles in the weak ionization gas.
用矩方法与Boltzmann方程相结合,推导出气体弱电离环境下粒子所满足的流体力学方程组。
Using moment method, combined with Boltzmann equation, a set of fluid kinetics equations is used to describe the motion of particles in the weak ionization gas.
用矩方法与Boltzmann方程相结合,推导出气体弱电离环境下粒子所满足的流体力学方程组。
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