A URANS-based three-phase mixture model simulates hydraulic jumps and air entrainment for Froude numbers 1.98-8.48, matching experimental data and IDDES accuracy at roughly 300 times lower computational cost.
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Eddy viscosity in wall turbulence varies with outer boundary conditions across configurations, and a parametric outer correction embedded in a Cess-van Driest framework improves mean-flow accuracy for open channels while matching classical results elsewhere.
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Numerical Modeling of Flow and Air Entrainment in Hydraulic Jumps for a Wide Range of Froude Numbers
A URANS-based three-phase mixture model simulates hydraulic jumps and air entrainment for Froude numbers 1.98-8.48, matching experimental data and IDDES accuracy at roughly 300 times lower computational cost.
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Revisit eddy viscosity in pressure-driven wall turbulence at high Reynolds number
Eddy viscosity in wall turbulence varies with outer boundary conditions across configurations, and a parametric outer correction embedded in a Cess-van Driest framework improves mean-flow accuracy for open channels while matching classical results elsewhere.