A new evolution equation for C_epsilon2 in k-epsilon modeling that incorporates Reynolds-number dependence and finite cascade time effects, shown to match simulation data for forced and decaying isotropic turbulence across a range of Reynolds numbers.
Reynolds-stress and dissipation-rate budgets in a turbulent channel flow,
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Inner-scaled linear contribution to wall-pressure variance remains O(1) at high Reynolds numbers, based on collapse of measured factors and inverse decay of gradient variance in the inertial layer.
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A variable-coefficient model for decay of isotropic turbulence capturing effects of finite cascade time and Reynolds number
A new evolution equation for C_epsilon2 in k-epsilon modeling that incorporates Reynolds-number dependence and finite cascade time effects, shown to match simulation data for forced and decaying isotropic turbulence across a range of Reynolds numbers.
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An Inner-Scaled Linear Contribution to Wall-Pressure Variance at High Reynolds Number
Inner-scaled linear contribution to wall-pressure variance remains O(1) at high Reynolds numbers, based on collapse of measured factors and inverse decay of gradient variance in the inertial layer.