A second-order modeling study of confined swirling flow

## Abstract An improved anisotropic model for the dissipation rate—ε—of the turbulent kinetic energy (__k__), to be used together with a non‐linear pressure‐strain correlations model, is proposed. Experimental data from the open literature for two confined turbulent swirling flows are used to asses

In this paper, a numerical investigation is presented to study the flow structures behind an axially mounted center-body of a confined annular swirling flow. Based on the transient, axisymmetric Navier-Stokes equations, the projection method is used to solve the pressure Poisson equation to retain t

## Abstract An investigation on the predictive performance of four cubic eddy‐viscosity turbulence models for two strongly swirling confined flows is presented. Comparisons of the prediction with the experiments show clearly the superiority of cubic models over the linear k–εmodel. The linear k–εmo

The present paper describes a numerical and experimental investigation of strongly swirling flow in a water model combustion chamber equipped with a swirler of special design. The turbulence models used for the numerical calculations are the standard k-e model, the RNG k-e model and a differential R

## a b s t r a c t In this paper, viscous flow over a shrinking sheet is solved analytically using a newly proposed second order slip flow model. The closed solution is an exact solution of the full governing Navier-Stokes equations. The solution has two branches in a certain range of the paramete