运用有限控制体积法进行了数值模拟计算,结果可信。
The finite control volume method is employed in numerical simulation, and pressure, phase fraction correction equations are given.
最后用有限控制体积法和伽略金有限元法对变换后的方程进行数学离散并求解。
With discrete mathematical method, the transformed equation is solved by finite control volume method and Galerkin finite element method.
数值计算时,采用有限体积法离散水流的控制方程;
In the numerical simulation, the flow control equation in orthogonal curvilinear coordinate system is discretized by the finite volume method;
在双极坐标系内,利用有限体积法对控制方程离散求解。
The governing equations were discretized using a finite volume method on a bipolar coordinate system.
运用体积开裂概率分析了大体积混凝土结构的抗裂可靠性,并结合有限元法对控制裂缝设计与施工进行了研究。
The paper analyses the anti cracking reliability in massive concrete structure with the concept of overall crack probability, presenting the cracking control design and construction combined with FEM.
用有限体积法离散控制方程,用块隐式法求解离散后的代数方程组。
The governing partial differential equations were discretized by finite volumes and the nonlinear algebraic equations were solved by a block implicit algorithm.
给出了描述活塞风流动的三维湍流流动的不可压n - S方程,采用有限体积法对控制方程进行离散。
A three dimensional turbulent flow is studied by the computation of the incompressible N-S governing equations. The finite-volume method was used to discrete the equations.
选用三维湍流数值模拟的方法,用有限体积法对控制方程进行离散。
Three-dimensional turbulence numerical simulation method was used, and the control equations are discrete by the finite volume method.
在总结水驱控制程度计算方法的基础上,提出了运用体积法计算聚合物驱控制程度的方法。
A method to calculate control degree of polymer flooding is described in this paper. This method is established on the basis of the method to calculate control degree of water flooding.
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 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.
控制方程采用有限体积法在柱坐标系下离散,压力速度耦合方程采用SIMPLE算法求解。
The spatial discretization of the governing equations was solved on a cylindrical staggered grid. The coupling equations of pressure and velocities were solved with the SIMPLE algorithm.
控制方程采用有限体积法在柱坐标系下离散,压力速度耦合方程采用SIMPLE算法求解。
The spatial discretization of the governing equations was solved on a cylindrical staggered grid. The coupling equations of pressure and velocities were solved with the SIMPLE algorithm.
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