This book provides a comprehensive description of numerical methods and validation processes for predicting transitional flows based on the Langtry–Menter local correlation-based transition model, integrated with both one-equation Spalart–Allmaras (S–A) and two-equation Shear Stress Transport (SST) turbulence models. A comparative study is presented to combine the respective merits of the two coupling methods in the context of predicting the boundary-layer transition phenomenon from fundamental benchmark flows to realistic helicopter rotors. The book will of interest to industrial practitioners working in aerodynamic design and the analysis of fixed-wing or rotary wing aircraft, while also offering advanced reading material for graduate stu...
The transition prediction capability of two semi-/empirical criteria originating from fixed wing app...
The physical process of a laminar boundary layer becoming turbulent is called “laminarturbulent tra...
Conventional turbulence models calibrated for fully turbulent boundary layers often over-predict dra...
A novel transition model has been developed for use in CFD simulations of helicopter rotor aerodyna...
The final paper will discuss the transition characteristics on both sides of the full scale helicopt...
A method is presented for predicting the laminar-turbulent transition on helicopter rotors. For a ro...
The present paper deals with the laminar-turbulent transition prediction on helicopter rotors in hov...
With the general increase of the use and importance of CFD methods and the increased wish for highly...
The simulation capabilities of the U/RANS solver TAU of DLR have been successfully extended in order...
This paper reports on the development of a unified one-equation model for the prediction of transiti...
The Amplification Factor Transport (AFT) transition modeling framework has been modified to include ...
The aerodynamics of modern rotorcraft is highly complex and has proven to be an arduous challenge fo...
This paper reports on the development of a unified one-equation model for the prediction of transiti...
An approximate method is presented to predict the laminar-turbulent transition onset within the unst...
In order to numerically determine the laminar-turbulent transition on hovering rotors, the applicabi...
The transition prediction capability of two semi-/empirical criteria originating from fixed wing app...
The physical process of a laminar boundary layer becoming turbulent is called “laminarturbulent tra...
Conventional turbulence models calibrated for fully turbulent boundary layers often over-predict dra...
A novel transition model has been developed for use in CFD simulations of helicopter rotor aerodyna...
The final paper will discuss the transition characteristics on both sides of the full scale helicopt...
A method is presented for predicting the laminar-turbulent transition on helicopter rotors. For a ro...
The present paper deals with the laminar-turbulent transition prediction on helicopter rotors in hov...
With the general increase of the use and importance of CFD methods and the increased wish for highly...
The simulation capabilities of the U/RANS solver TAU of DLR have been successfully extended in order...
This paper reports on the development of a unified one-equation model for the prediction of transiti...
The Amplification Factor Transport (AFT) transition modeling framework has been modified to include ...
The aerodynamics of modern rotorcraft is highly complex and has proven to be an arduous challenge fo...
This paper reports on the development of a unified one-equation model for the prediction of transiti...
An approximate method is presented to predict the laminar-turbulent transition onset within the unst...
In order to numerically determine the laminar-turbulent transition on hovering rotors, the applicabi...
The transition prediction capability of two semi-/empirical criteria originating from fixed wing app...
The physical process of a laminar boundary layer becoming turbulent is called “laminarturbulent tra...
Conventional turbulence models calibrated for fully turbulent boundary layers often over-predict dra...