Prediction and control of boundary layer transition from laminar to turbulent is important to many flow regimes and vehicle designs, including vehicles operating at hypersonic conditions where nonequilibrium effects may be encountered. Wall cooling is known to affect the instability characteristics of the boundary layer and subsequently the transition location. Design considerations, including material failure and fuel chemistry, require the use of actively cooled walls in hypersonic vehicles, further motivating the study of wall temperature effects on top of the considerations of reducing heat flux, drag, and uncertainty. In this work, we analyze the stability of a boundary layer with chemical and thermal nonequilibrium on a Mach 20, 6 wed...
Boundary-layer transition prediction has a dramatic impact on the optimization of hypersonic cruise ...
A flared-cone model under adiabatic and cooled-wall conditions was placed in a calibrated, low-distu...
A CFD analysis was conducted on a circular cone at 3 degrees angle of attack at Mach 10 using US3D a...
The influence of high levels of wall cooling on the stability of hypervelocity boundary layers is in...
The influence of high levels of wall cooling on the stability of hypervelocity boundary layers is in...
The prediction of boundary-layer transition on hypersonic vehicles has long been considered a primar...
A hypersonic, spatially evolving turbulent boundary layer at Mach 12.48 with a cooled wall is analys...
Effects of wall temperature on stabilities of hypersonic boundary layer over a 7-degree half-cone-an...
This is an accepted manuscript of an article published by Elsevier in Aerospace Science and Technolo...
Mack’s second mode has been known to be the dominant disturbance leading to transition to turbulence...
Wall cooling effects on turbulent heat transfer and boundary layer transition for sharp leading edge...
Measurements of the location of boundary-layer transition and the local heat transfer have been made...
Boundary-layer transition prediction has a dramatic impact on the optimization of hypersonic cruise ...
Boundary-layer transition prediction has a dramatic impact on the optimization of hypersonic cruise ...
A combined numerical-experimental investigation is presented with focus on the effects of boundary-l...
Boundary-layer transition prediction has a dramatic impact on the optimization of hypersonic cruise ...
A flared-cone model under adiabatic and cooled-wall conditions was placed in a calibrated, low-distu...
A CFD analysis was conducted on a circular cone at 3 degrees angle of attack at Mach 10 using US3D a...
The influence of high levels of wall cooling on the stability of hypervelocity boundary layers is in...
The influence of high levels of wall cooling on the stability of hypervelocity boundary layers is in...
The prediction of boundary-layer transition on hypersonic vehicles has long been considered a primar...
A hypersonic, spatially evolving turbulent boundary layer at Mach 12.48 with a cooled wall is analys...
Effects of wall temperature on stabilities of hypersonic boundary layer over a 7-degree half-cone-an...
This is an accepted manuscript of an article published by Elsevier in Aerospace Science and Technolo...
Mack’s second mode has been known to be the dominant disturbance leading to transition to turbulence...
Wall cooling effects on turbulent heat transfer and boundary layer transition for sharp leading edge...
Measurements of the location of boundary-layer transition and the local heat transfer have been made...
Boundary-layer transition prediction has a dramatic impact on the optimization of hypersonic cruise ...
Boundary-layer transition prediction has a dramatic impact on the optimization of hypersonic cruise ...
A combined numerical-experimental investigation is presented with focus on the effects of boundary-l...
Boundary-layer transition prediction has a dramatic impact on the optimization of hypersonic cruise ...
A flared-cone model under adiabatic and cooled-wall conditions was placed in a calibrated, low-distu...
A CFD analysis was conducted on a circular cone at 3 degrees angle of attack at Mach 10 using US3D a...
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