Discretization and perturbations in the simulation of localized turbulence in a pipe with a sudden expansion

This study aims at investigating the inlet flow conditions of flow through an axisymmetric sudden expansion with an expansion ratio (ER) of 2.0. A series of large eddy simulations (LES) with WALE model were conducted for different inlet Reynolds numbers ( Re) and turbulence intensities ( urms/Ūm). The reattachment length, defined as the length measured downstream of the expansion where the flow direction is reversed adjacent to the wall ( Lr), was measured for each case. For widely studied inlet turbulence intensity values (TI), the simulation results are in good agreement with the experimental and numerical results reported in the literature. Parametric studies revealed that turbulence intensity affects the critical Reynolds, marking the transition between laminar and transition regions and the reattachment length. The critical Reynolds number was found to decrease with increasing turbulence intensity. A correlation expression is proposed. Additional analysis with Proper Orthogonal Decomposition (POD) was performed to enhanced understanding of complex flow structures downstream of the expansion. Finally, an overall correlation expression for the reattachment length was obtained for 500 {less than or equal to} Re {less than or equal to} 15,000 and 0.2 {less than or equal to} TI [%] {less than or equal to} 20. For a given turbulence intensity, the reattachment length can be expressed for laminar and turbulent regions as a function of Reynolds number. The reattachment length in the transition region can be expressed as a fractional average of reattachment lengths for laminar and turbulent flows.

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Discretization and perturbations in the simulation of localized turbulence in a pipe with a sudden expansion

Cited by 3 publications

References 42 publications

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