Nonlinear turbulence closures were developed that improve the prediction accuracy of wake mixing in low-pressure turbine (LPT) flows. First, Reynolds-averaged Navier–Stokes (RANS) calculations using five linear turbulence closures were performed for the T106A LPT profile at isentropic exit Reynolds numbers 60,000 and 100,000. None of these RANS models were able to accurately reproduce wake loss profiles, a crucial parameter in LPT design, from direct numerical simulation (DNS) reference data. However, the recently proposed kv2¯ω transition model was found to produce the best agreement with DNS data in terms of blade loading and boundary layer behavior and thus was selected as baseline model for turbulence closure development. Analysis of th...
editorial reviewedCurrent trends in aero-engine design are oriented at designing high-lift low-press...
International audienceTurbulence modelling remains a challenge for the simulation of turbomachinery ...
Abstract. In turbomachines, transitional flows are likely to occur over many components. In the case ...
© 2019 Harshal Deepak AkolekarThe design of the gas turbine, which is the work horse of the aviation...
The design of low-pressure turbines (LPT) must account for the losses generated by the unsteady inte...
This paper presents an assessment of machine-learned turbulence closures, trained for improving wake...
This paper presents development of accurate turbulence closures for wake mixing prediction by integr...
To date no generally accepted prediction method is available for a low pressure turbine designer. De...
Wind turbine wakes cause significant reductions in power production and increased fatigue damage for...
Existing Reynolds Averaged Navier–Stokes-based transition models do not accurately predict separatio...
The predictive qualities of a recently developed algebraic intermittency model for laminar-to-turbul...
The Reynolds Stress Model (RSM) is adopted to simulate the wind turbine wake and the simulation resu...
Turbulence closure models will continue to be necessary in order to perform computationally affordab...
The inability of RANS to correctly capture profile wake dynamics and decay prevents the accurate pre...
Turbines—Part I: Methodology Modern low pressure turbines (LPT) feature high pressure ratios and mod...
editorial reviewedCurrent trends in aero-engine design are oriented at designing high-lift low-press...
International audienceTurbulence modelling remains a challenge for the simulation of turbomachinery ...
Abstract. In turbomachines, transitional flows are likely to occur over many components. In the case ...
© 2019 Harshal Deepak AkolekarThe design of the gas turbine, which is the work horse of the aviation...
The design of low-pressure turbines (LPT) must account for the losses generated by the unsteady inte...
This paper presents an assessment of machine-learned turbulence closures, trained for improving wake...
This paper presents development of accurate turbulence closures for wake mixing prediction by integr...
To date no generally accepted prediction method is available for a low pressure turbine designer. De...
Wind turbine wakes cause significant reductions in power production and increased fatigue damage for...
Existing Reynolds Averaged Navier–Stokes-based transition models do not accurately predict separatio...
The predictive qualities of a recently developed algebraic intermittency model for laminar-to-turbul...
The Reynolds Stress Model (RSM) is adopted to simulate the wind turbine wake and the simulation resu...
Turbulence closure models will continue to be necessary in order to perform computationally affordab...
The inability of RANS to correctly capture profile wake dynamics and decay prevents the accurate pre...
Turbines—Part I: Methodology Modern low pressure turbines (LPT) feature high pressure ratios and mod...
editorial reviewedCurrent trends in aero-engine design are oriented at designing high-lift low-press...
International audienceTurbulence modelling remains a challenge for the simulation of turbomachinery ...
Abstract. In turbomachines, transitional flows are likely to occur over many components. In the case ...