Add to ORKGA non-intrusive diagnostic capability for determining the hypersonic shock and boundary layer structure was developed, installed, and successfully tested at the AEDC Hypervelocity Tunnel 9. This customized diagnostic involves a combination of a focused schlieren system, which relies on creating multiple virtual light sources using a Fresnel lens and a source grid, and a deflectometry system, which uses the focused schlieren and a photomultiplier tube. It was used for obtaining spatially resolved images of density gradients with a depth of focus less than one centimeter, while allowing high frequency measurements of density fluctuations. The diagnostic was applied in investigating the second-mode instability waves present in the boundary la...
This thesis investigates a hypersonic turbulent boundary layer over a cone with cold walls and a sha...
Schlieren flow visualization methods are an important part of high speed wind tunnel testing, being ...
The goal of this research is to advance the field of noise measurement techniques to better understa...
Understanding the instabilities leading to the laminar-to-turbulent transition of a hypersonic bound...
The flow field around a Sharp cone model configuration has been investigated by means of Schlieren ...
The character of the boundary layer noise and ambient tunnel noise are of interest in the experiment...
Three variants of schlieren techniques are employed to investigate the development of second-mode ...
The prediction of laminar–turbulent transition location in high-speed boundary layers is critical to...
Visualisation of supersonic compressible flows using the Background Oriented Schlieren (BOS) techniq...
A series of experiments is performed in the High Enthalpy shock tunnel Göttingen (HEG) to investigat...
A conical convergent-divergent (CD) nozzle of design exit Mach 1.5 and diameter 5mm was designed and...
Without a strong understanding of the behaviour of the control surfaces of a hypersonic vehicle, cat...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
A novel optical method is used to measure the high-frequency (up to 3 MHz) density fluctuations that...
Schlieren imaging is particularly suited to measuring density gradients in compressible flowfields a...
This thesis investigates a hypersonic turbulent boundary layer over a cone with cold walls and a sha...
Schlieren flow visualization methods are an important part of high speed wind tunnel testing, being ...
The goal of this research is to advance the field of noise measurement techniques to better understa...
Understanding the instabilities leading to the laminar-to-turbulent transition of a hypersonic bound...
The flow field around a Sharp cone model configuration has been investigated by means of Schlieren ...
The character of the boundary layer noise and ambient tunnel noise are of interest in the experiment...
Three variants of schlieren techniques are employed to investigate the development of second-mode ...
The prediction of laminar–turbulent transition location in high-speed boundary layers is critical to...
Visualisation of supersonic compressible flows using the Background Oriented Schlieren (BOS) techniq...
A series of experiments is performed in the High Enthalpy shock tunnel Göttingen (HEG) to investigat...
A conical convergent-divergent (CD) nozzle of design exit Mach 1.5 and diameter 5mm was designed and...
Without a strong understanding of the behaviour of the control surfaces of a hypersonic vehicle, cat...
Background oriented schlieren (BOS) is a quantitative optical technique which exploits light deflect...
A novel optical method is used to measure the high-frequency (up to 3 MHz) density fluctuations that...
Schlieren imaging is particularly suited to measuring density gradients in compressible flowfields a...
This thesis investigates a hypersonic turbulent boundary layer over a cone with cold walls and a sha...
Schlieren flow visualization methods are an important part of high speed wind tunnel testing, being ...
The goal of this research is to advance the field of noise measurement techniques to better understa...