Add to ORKGThe functioning of a recently developed algebraic model for laminar to turbulent boundary layer transition under high free-stream turbulence is illustrated. The model uses only local variables and is tuned for turbomachinery flows. The transition model is combined with the newest k-omega RANS turbulence model by Wilcox. It takes into account two effects in an attached pre-transitional boundary layer: damping of short-wavelength disturbances induced by the free stream and breakdown of the near-wall perturbed flow with generation of fine-scale turbulence
A mathematical model of turbulent flow, based on the finite volume method and two-equation turbulenc...
The bypass transition occurs when the boundary layer is submitted to a high free-stream turbulence l...
Most of transition models are proposed for modelling of the bypass transition common in the internal...
The functioning of a recently developed algebraic model for laminar to turbulent boundary layer tran...
The paper discusses an algebraic intermittency model for prediction of bypass and separation-induced...
An algebraic intermittency model for bypass and separation-induced transition is presented. The mode...
The paper discusses an algebraic intermittency model for prediction of bypass and separation-induced...
An algebraic intermittency model for bypass and separation-induced transition is presented. The mode...
A simple algebraic intermittency model is proposed for simulation of laminar to turbulent boundary l...
A simple algebraic intermittency model is proposed for simulation of laminar to turbulent boundary l...
A simple algebraic intermittency model is proposed for simulation of laminar to turbulent boundary l...
Current models for transition in turbomachinery boundary layer flows are reviewed. The basic physica...
Current models for transition in turbomachinery boundary layer flows are reviewed. The basic physica...
An algebraic intermittency model for boundary layer flow transition from laminar to turbulent state,...
An algebraic intermittency model for boundary layer flow transition from laminar to turbulent state,...
A mathematical model of turbulent flow, based on the finite volume method and two-equation turbulenc...
The bypass transition occurs when the boundary layer is submitted to a high free-stream turbulence l...
Most of transition models are proposed for modelling of the bypass transition common in the internal...
The functioning of a recently developed algebraic model for laminar to turbulent boundary layer tran...
The paper discusses an algebraic intermittency model for prediction of bypass and separation-induced...
An algebraic intermittency model for bypass and separation-induced transition is presented. The mode...
The paper discusses an algebraic intermittency model for prediction of bypass and separation-induced...
An algebraic intermittency model for bypass and separation-induced transition is presented. The mode...
A simple algebraic intermittency model is proposed for simulation of laminar to turbulent boundary l...
A simple algebraic intermittency model is proposed for simulation of laminar to turbulent boundary l...
A simple algebraic intermittency model is proposed for simulation of laminar to turbulent boundary l...
Current models for transition in turbomachinery boundary layer flows are reviewed. The basic physica...
Current models for transition in turbomachinery boundary layer flows are reviewed. The basic physica...
An algebraic intermittency model for boundary layer flow transition from laminar to turbulent state,...
An algebraic intermittency model for boundary layer flow transition from laminar to turbulent state,...
A mathematical model of turbulent flow, based on the finite volume method and two-equation turbulenc...
The bypass transition occurs when the boundary layer is submitted to a high free-stream turbulence l...
Most of transition models are proposed for modelling of the bypass transition common in the internal...