Title: Transition prediction in transonic turbine configurations using a correlation-based transport equation model
Authors: Abdelkader Benyahia, Robert Houdeville
Addresses: ONERA DAAP, 8 Rue des Vertugadins 92190 Meudon, France. ' ONERA DMAE, 2 avenue Edouard Belin, BP4025, 31055 Toulouse Cedex 4, France
Abstract: The Menter correlation-based transition model has been implemented in the CFD code elsA. The model is a framework for taking into account laminar/turbulent transition effects into CFD simulations. The model has been evaluated on two-transonic turbine configurations experimented at the Von Karman Institute. The first case is the well-known 2D Nozzle Guide Vane LS89; the second test case is the CT3 stator/rotor configuration on which quasi 3D computations have been accomplished. Results obtained with the Menter transition model pointed out real improvements in terms of heat transfer predictions. The laminar zones and the transition onset are well-captured and the early transition situated on the rotor leading edge for the CT3 case is also well-produced.
Keywords: transition prediction; turbomachinery; transonic turbines; turbine configurations; intermittency; Menter transition model; Langtry; transport equation modelling; CFD; computational fluid dynamics; heat transfer.
DOI: 10.1504/IJESMS.2011.038748
International Journal of Engineering Systems Modelling and Simulation, 2011 Vol.3 No.1/2, pp.36 - 45
Published online: 21 Mar 2015 *
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