On the elimination of wall-topography parameters from second-moment closure
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Publication:4838726
DOI10.1063/1.868277zbMath0825.76331OpenAlexW2024439446MaRDI QIDQ4838726
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Publication date: 28 November 1995
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.868277
Related Items (12)
Anisotropy invariant Reynolds stress model of turbulence (AIRSM) and its application to attached and separated wall-bounded flows ⋮ Simulations of laminar and turbulent flows over periodic hills with immersed boundary method ⋮ Near-wall modification of an explicit algebraic Reynolds stress model using elliptic blending ⋮ Low-diffusion approximate Riemann solvers for Reynolds-stress transport ⋮ Development and calibration of algebraic nonlinear models for terms in the Reynolds stress transport equations ⋮ Wall effects on pressure fluctuations in turbulent channel flow ⋮ A parallel multilevel preconditioned iterative pressure Poisson solver for the large-eddy simulation of turbulent flow inside a duct ⋮ Contribution to single-point closure Reynolds-stress modelling of inhomogeneous flow ⋮ Multiple scale modeling of turbulent nonequilibrium boundary layer flows ⋮ Progress in the second-moment closure for bubbly flow based on direct numerical simulation data ⋮ Calculation of turbulent fluid flow and heat transfer in ducts by a full Reynolds stress model ⋮ On the minimal representation of non-linear eddy-viscosity models
Cites Work
- Modelling the pressure–strain correlation of turbulence: an invariant dynamical systems approach
- Calculation of turbulence-driven secondary motion in non-circular ducts
- Progress in the development of a Reynolds-stress turbulence closure
- Ground effects on pressure fluctuations in the atmospheric boundary layer
- Turbulence statistics in fully developed channel flow at low Reynolds number
- The production and diffusion of vorticity in duct flow
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