The e(sup N) method for predicting transition onset is an amplitude ratio criterion that is on the verge of full maturation for three-dimensional, compressible, real gas flows. Many of the components for a more sophisticated, absolute amplitude criterion are now emerging: receptivity theory, secondary instability theory, parabolized stability equations approaches, direct numerical simulation and large-eddy simulation. This paper will provide a description of each of these new theoretical tools and provide indications of their current status
A glimpse is provided of the research program in stability, transition, and turbulence based on nume...
A prediction of whether a point on a computer-generated surface is adjacent to laminar or turbulent ...
The modeling of laminar-turbulent transition in RANS flow solvers is an inevitable requirement for t...
Interest in the study of stability lies in the strong link with the laminar-to-turbulent transition ...
The viewgraphs and discussion of linear stability theory and three dimensional boundary layer transi...
The economic and environmental benefits of laminar flow technology via reduced fuel burn of subsonic...
Several methods of transition prediction by linear stability analysis are compared. The spectral sta...
Boundary-layer transition in hypersonic flows over a straight cone can be predicted using measured f...
Transition prediction of boundary layers has always been an important problem in fluid mechanics bot...
AbstractThis paper describes a simplified transition model based on the recently developed correlati...
During the past two decades, our understanding of laminar-turbulent transition flow physics has adva...
The paper describes a method for viscous flow prediction which includes the prediction of transition...
Boundary-layer stability and laminar-to-turbulent transition have been studied for decades in variou...
The parabolized stability equations (PSE) are a new and more reliable approach to analyzing the stab...
Laminar-turbulent boundary-layer transition has a demonstrable impact on the performance of aerospac...
A glimpse is provided of the research program in stability, transition, and turbulence based on nume...
A prediction of whether a point on a computer-generated surface is adjacent to laminar or turbulent ...
The modeling of laminar-turbulent transition in RANS flow solvers is an inevitable requirement for t...
Interest in the study of stability lies in the strong link with the laminar-to-turbulent transition ...
The viewgraphs and discussion of linear stability theory and three dimensional boundary layer transi...
The economic and environmental benefits of laminar flow technology via reduced fuel burn of subsonic...
Several methods of transition prediction by linear stability analysis are compared. The spectral sta...
Boundary-layer transition in hypersonic flows over a straight cone can be predicted using measured f...
Transition prediction of boundary layers has always been an important problem in fluid mechanics bot...
AbstractThis paper describes a simplified transition model based on the recently developed correlati...
During the past two decades, our understanding of laminar-turbulent transition flow physics has adva...
The paper describes a method for viscous flow prediction which includes the prediction of transition...
Boundary-layer stability and laminar-to-turbulent transition have been studied for decades in variou...
The parabolized stability equations (PSE) are a new and more reliable approach to analyzing the stab...
Laminar-turbulent boundary-layer transition has a demonstrable impact on the performance of aerospac...
A glimpse is provided of the research program in stability, transition, and turbulence based on nume...
A prediction of whether a point on a computer-generated surface is adjacent to laminar or turbulent ...
The modeling of laminar-turbulent transition in RANS flow solvers is an inevitable requirement for t...