Loss Predictions in the High-Pressure Film-Cooled Turbine Vane of the FACTOR Project by Mean of Wall-Modeled Large Eddy Simulation

Abstract: The use of numerical simulations to design and optimize turbine vane cooling requires precise prediction of the fluid mechanics and film cooling effectiveness. This results in the need to numerically identify and assess the various origins of the losses taking place in such systems and if possible in engine representative conditions. Large-Eddy Simulation (LES) has shown recently its ability to predict turbomachinery flows in well mastered academic cases such as compressor or turbine cascades. When it comes to… Show more

“…To balance computation accuracy and cost, wall-modelled large eddy simulation (WMLES) has been developed in the past decades, with special attention paid to turbomachinery applications. These include WMLES for airfoils [6][7][8][9], compressor and turbine cascades [10,11], separation and transition [12], film cooling [13,14] and rotating flows [15].…”

Advanced Modeling of Flow and Heat Transfer in Rotating Disk Cavities Using Open-Source Computational Fluid Dynamics

“…To balance computation accuracy and cost, wall-modelled large eddy simulation (WMLES) has been developed in the past decades, with special attention paid to turbomachinery applications. These include WMLES for airfoils [6][7][8][9], compressor and turbine cascades [10,11], separation and transition [12], film cooling [13,14] and rotating flows [15].…”

Advanced Modeling of Flow and Heat Transfer in Rotating Disk Cavities Using Open-Source Computational Fluid Dynamics