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Numerical Simulation of a Precessing Vortex Breakdown

Numerical Simulation of a Precessing Vortex Breakdown
Author: Jochmann,P.
Sinigersky,A.
Hehle,M.
Schäfer,O.
Koch,R.
Bauer,H.-J.
Source:

International Journal of Heat and Fluid Flow,
Vol. 27,  Issue 2, Page 192-203

Abstract

 

The objective of this work is to present the results of time-dependent numerical predictions of a turbulent symmetry breaking vortex breakdown in a realistic gas turbine combustor. The unsteady Reynolds-averaged Navier-Stokes (URANS) equations are solved by using the k-e two-equation model as well as by a full second-order closure using the Reynolds stress model of Speziale, Sarkar and Gatski (SSG). The results for a Reynolds number of  5.2 x104, a swirl number of 0.52 and an expansion ratio of 5 show that the flow is emerging from the swirler as a spiral gyrating around a zone of strong recirculation which is also asymmetric and processing. These flow structures which are typical for the spiral type (S-type) vortex breakdown have been confirmed by PIV and local LDA measurements in a corresponding experimental setup. Provided that high resolution meshes are employed the calculations with both turbulence models are capable to reproduce the spatial and temporal dynamics of the flow.