An eddy-viscosity subgrid-scale model for turbulent shear flow: Algebraic theory and applications
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Abstract
An eddy-viscosity model is proposed and applied in large-eddy simulation of turbulent shear flows with quite satisfactory results. The model is essentially not more complicated than the Smagorinsky model, but is constructed in such a way that its dissipation is relatively small in transitional and near-wall regions. The model is expressed in first-order derivatives, does not involve explicit filtering, averaging, or clipping procedures, and is rotationally invariant for isotropic filter widths. Because of these highly desirable properties the model seems to be well suited for engineering applications. In order to provide a foundation of the model, an algebraic framework for general three-dimensional flows is…
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Topics
Keywords
- Physics
- Realizability
- Turbulence
- Turbulence modeling
- Large eddy simulation
- Mechanics
- Statistical physics
- Reynolds number
UN Sustainable Development Goals
- Affordable and clean energy
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