Upwind flux vector splitting scheme for chemical non-equilibrium flows on hybrid meshes and its parallelization;
提出了一套较为通用的,完全自动化的非结构混合网格生成方法。
We propose an implicit discretization for the level set equation of the model and solve it using additive operator splitting scheme (AOS).
本文提出,首先,将该模型对应的水平集方程做隐式数值化,然后采用加性算子分割方法(AOS)求解。
The operator-splitting scheme is used to solve the governing equations: using the Eulerian-Lagrangian method for solving the horizontal advection terms;
本模型采用破开算子法求解控制方程:用欧拉-拉格朗日法求解水平对流项;
Splitting method and implicit time difference scheme are used in the numerical calculation.
数值计算中采用了分解算法及隐式时间差分方案。
The algorithm consists of a new bit level scheme and a bit splitting technique.
本算法由一种新的比特级算法和一种裂位技术组成。
The solution scheme is the consistent splitting technique which splitting the conservation equations into two separate intergration, one chemical intergration and one fluid dynamics intergration.
它采用相容分割法将守恒方程划分为化学方程和流动方程两个有机的部分。
Simulation results show that it is necessary to consider capacitance current compensation in the phase-splitting current differential protection scheme for HTS power cable;
结果表明,在高温超导电缆分相电流差动保护方案中必须考虑电容补偿;
Simulation results show that it is necessary to consider capacitance current compensation in the phase-splitting current differential protection scheme for HTS power cable;
结果表明,在高温超导电缆分相电流差动保护方案中必须考虑电容补偿;
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