Are '2D DNS' results of turbulent fuel/air mixing layers useful for assessing subgrid-scale models?

Ameen Muhsin M.; Abraham John

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Are '2D DNS' results of turbulent fuel/air mixing layers useful for assessing subgrid-scale models?

机译：湍流燃料/空气混合层的“ 2D DNS”结果对评估次网格规模模型有用吗？

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Direct Numerical Simulations (DNS) are frequently used to evaluate subgrid-scale models, but for practical flows full three-dimensional (3D) DNS is often computationally infeasible. It is a common practice to employ two-dimensional (2D) DNS, but since turbulence is inherently a three-dimensional phenomenon, the validity of this approach is questionable. In this study, we compare the evolution of a turbulent fuel/air mixing layer employing 3D and 2D DNS. While there are significant differences in detail, it is shown that employing either set of results leads to the same conclusion about the superiority of one subgrid-scale model over another.

机译：直接数值模拟（DNS）通常用于评估子网格规模的模型，但是对于实际流程而言，完整的三维（3D）DNS通常在计算上不可行。采用二维（2D）DNS是一种常见的做法，但是由于湍流本质上是一种三维现象，因此这种方法的有效性值得怀疑。在这项研究中，我们比较了采用3D和2D DNS的湍流燃料/空气混合层的演变过程。尽管在细节上存在显着差异，但事实表明，采用任何一组结果都可以得出相同的结论，即一个亚网格规模模型优于另一个亚网格规模模型。

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《Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology》 |2016年第6期|共13页
作者
Ameen Muhsin M.; Abraham John;
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1. Are "2D DNS" results of turbulent fuel/air mixing layers useful for assessing subgrid-scale models? [J] . Ameen Muhsin M., Abraham John Numerical Heat Transfer, Part A. Application: An International Journal of Computation and Methodology . 2016,第1a6期

机译：湍流燃料/空气混合层的“ 2D DNS”结果对评估次网格规模模型有用吗？
2. Modeling of the Subgrid-Scale Pressure Distribution in Turbulent Mixing Layer [J] . Kie OKABAYASHI, Takeo KAJISHIMA Journal of Fluid Science and Technology . 2011,第1期

机译：湍流混合层中亚网格尺度压力分布的建模
3. Assessment of Subgrid-Scale Models by Direct Numerical Simulation of a Temporally Developing Turbulent Mixing Layer [J] . Mamoru TANAHASHI, Toshio MIYAUCHI JSME International Journal. Series B, Fluids and Thermal Engineering . 1996,第4期

机译：通过暂时发展的湍流混合层的直接数值模拟评估亚网格模型
4. Influence of Vortical Structures on Ignition in DNS of a Turbulent Mixing Layer with Non-Premixed H_2/air Combustion [C] . Tatsuya Yonemura, Takashi Ohta, Yasuyuki Sakai Asia-Pacific Conference on Combustion . 2018

机译：具有非预混H_2 /空气燃烧的湍流混合层DNS点火对涡流结构的影响
5. Numerical investigations of subgrid-scale mixing models for large eddy simulation of turbulent reacting flows via the filtered mass density function approach. [D] . Shetty, Dinesh A. 2010

机译：通过过滤质量密度函数方法对大湍流反应流进行大涡模拟的亚网格规模混合模型的数值研究。
6. Turbulent channel with slip boundaries as a benchmark for subgrid-scale models in LES [O] . A. Lozano-Durán, H. J. Bae -1

机译：具有滑移边界的湍流通道作为LES中子网格规模模型的基准
7. Modeling of the Subgrid-Scale Pressure Distribution in Turbulent Mixing Layer [O] . Kie OKABAYASHI, Takeo KAJISHIMA 2011

机译：湍流混合层底级压力分布的建模
8. A Priori Analysis of Subgrid-Scale Models for Large Eddy Simulations of Supercritical Binary-Species Mixing Layers [R] . Okong'o, Nora, Bellan, Josette 2005

机译：超临界二元物种混合层大涡模拟的亚网格尺度模型的先验分析

Are '2D DNS' results of turbulent fuel/air mixing layers useful for assessing subgrid-scale models?

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