Oshin Peroomian scite author profile

This paper evaluates a wall-distance-free low-Re k-ε turbulence closure model which incorporates an extra source term in the ε transport equation designed to increase the level of ε in nonequilibrium flow regions, thus reducing the kinetic energy and length scale magnitudes to improve prediction of adverse pressure gradient flows, including those involving separated flows regions. Two such cases are used here to test the model: one in the low speed flow regime, the other a supersonic one. Comparisons with experimental data and with an earlier version of the k-ε model, as well as with a variant of the k-ω model (both also wall-distance-free) reveal that the proposed model enables improved prediction of adverse pressure gradient flows relative to more traditional k-ε models.

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A 'grid-transparent' methodology for CFD

Peroomian¹,

Chakravarthy²,

Goldberg³

1997

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Convergence acceleration for unified-grid formulation using preconditioned implicit relaxation

Peroomian

Chakravarthy

Palaniswamy

et al. 1998

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Hypersonic Flow Predictions Using Linear and Nonlinear Turbulence Closures

Goldberg

Batten

Palaniswamy

et al. 2000

Journal of Aircraft

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Validation of CFD++ code capability for supersonic combustor flowfields

Goldberg

Peroomian

Chakravarthy

et al. 1997

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Oshin Peroomian

A Wall-Distance-Free k-ε Model With Enhanced Near-Wall Treatment

A 'grid-transparent' methodology for CFD

Convergence acceleration for unified-grid formulation using preconditioned implicit relaxation

Hypersonic Flow Predictions Using Linear and Nonlinear Turbulence Closures

Validation of CFD++ code capability for supersonic combustor flowfields

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