Code Verification For The SENSEI CFD Code

IF 0.5 Q4 ENGINEERING, MECHANICAL Journal of Verification, Validation and Uncertainty Quantification Pub Date : 2023-05-23 DOI:10.1115/1.4062609
Weicheng Xue, Hongyu Wang, Christopher J. Roy
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引用次数: 1

Abstract

This work performs systematic studies for code verification for turbulence modeling in our research CFD code SENSEI. Turbulence modeling verification cases including cross term sinusoidal manufactured solutions and a few exact solutions are used to justify the proper Spalart-Allmaras and Menter's SST turbulence modeling implementation of the SENSEI CFD code. The observed order of accuracy matches fairly well with the formal order for both the 2D/3D steady-state and 2D unsteady flows when using the cross term sinusoidal manufactured solutions. This work concludes that it is important to keep the spatial discretization error in a similar order of magnitude as the temporal error in order to avoid erroneous analysis when performing combined spatial and temporal order analysis. Since explicit time marching scheme typically requires smaller time step size compared to implicit time marching schemes due to stability constraints, multiple implicit schemes such as the Singly-Diagonally Implicit Runge-Kutta multi-stage scheme and three point backward scheme are used in our work to mitigate the stability constraints.
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代码验证的SENSEI CFD代码
这项工作对我们研究CFD代码SENSEI中湍流建模的代码验证进行了系统的研究。湍流建模验证案例,包括交叉项正弦制造解决方案和一些精确解决方案,用于证明正确的Spalart-Allmaras和Menter SST湍流建模SENSEI CFD代码的实施。当使用交叉项正弦制造解时,观测到的精度阶数与2D/3D稳态和2D非定常流的形式阶数相当匹配。这项工作得出的结论是,在进行空间和时间顺序的组合分析时,重要的是将空间离散化误差保持在与时间误差相似的数量级,以避免错误的分析。由于稳定性约束,与隐式时间推进方案相比,显式时间推进格式通常需要更小的时间步长,因此在我们的工作中使用了多个隐式方案,如单对角隐式Runge-Kutta多级方案和三点后向方案来减轻稳定性约束。
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来源期刊
CiteScore
1.60
自引率
16.70%
发文量
12
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