Development of a fully automated CFD system for three-dimensional flow simulations based on hybrid prismatic-tetrahedral grids

机译：开发基于混合棱柱-四面体网格的用于三维流动模拟的全自动CFD系统

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In this paper an assessment of CFD methods based on the underlying grid type is made. It is safe to say that emerging CFD methods based on hybrid body-fitted grids of tetrahedral and prismatic cells using unstructured data storage schemes have the potential to satisfy the basic requirements of problem-turnaround-time and accuracy for complex geometries. The CFD system described in this paper is based on the hybrid prismatic-tetrahedral grid approach. In an analysis it is shown that the cells in the prismatic layer have to satisfy a central symmetry property in order to obtain a second-order accurate approximation of the viscous terms in the Reynolds-averaged Navier-Stokes equations. Prismatic grid generation is demonstrated for the ONERA M6 wing-alone configuration and the AS28G wing/body configuration.

机译：在本文中，对基于基础网格类型的CFD方法进行了评估。可以肯定地说，基于四面体和棱柱形单元的混合体装配网格的新兴CFD方法，使用非结构化数据存储方案，有可能满足问题周转时间和复杂几何精度的基本要求。本文介绍的CFD系统基于混合棱柱-四面体网格方法。在分析中显示，棱柱形层中的单元必须满足中心对称性，才能获得雷诺平均Navier-Stokes方程中粘性项的二阶精确近似。演示了单机ONERA M6机翼配置和AS28G机翼/机体配置的棱柱网格生成。

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《Numerical Grid Generation in Computational Field Simulations》|1996年|p.557-566|共10页
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J.W. van der Burg; J.E.J. Maseland; B. Oskam;
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中图分类自动化技术、计算机技术;
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机译：基于混合棱柱 - 四面体网格的三维流动模拟全自动CFD系统的开发

Development of a fully automated CFD system for three-dimensional flow simulations based on hybrid prismatic-tetrahedral grids

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