Add to ORKGThe Background Oriented Schlieren using Celestial Objects series of flights was undertaken in the spring of 2016 at National Aeronautics and Space Administration Armstrong Flight Research Center to further develop and improve a flow visualization technique which can be performed from the ground upon flying aircraft. Improved hardware and imaging techniques from previous schlieren tests were investigated. A United States Air Force T-38C and NASA B200 King Air aircraft were imaged eclipsing the sun at ranges varying from 2 to 6 nautical miles, at subsonic and supersonic speeds
To visualize the flow in the test section of an indraft supersonic wind tunnel in the University of ...
Research in aerodynamics and flow physics often require visual experiments in order to understand th...
Research in aerodynamics and flow physics often require visual experiments in order to understand th...
The present invention is a system and method of visualizing fluid flow around an object, such as an ...
This presentation describes the development and use of Background Oriented Schlieren (BOS) on a full...
This article describes the development and use of Background Oriented Schlieren on a full-scale supe...
Advancing the state of the art of schlieren photography for validation of wind tunnel and CFD effort...
Schlieren flow visualization methods are an important part of high speed wind tunnel testing, being ...
This is a presentation to be given at an internal NASA Advanced Schlieren Working Group Meeting. The...
Background Oriented Schlieren (BOS) is a derivative of the classical schlieren technology, which is ...
Visualisation of supersonic compressible flows using the Background Oriented Schlieren (BOS) techniq...
Visualization of the flow field around a generic re-entry capsule in subsonic flow and shock wave vi...
This paper presents the results of visualization of separated flow around a generic entry capsule th...
In this paper we present a novel measurement technique based on the refractive index variation in a ...
This is a presentation for an invited session at the 2015 SciTech Conference 53rd AIAA Aerospace Sci...
To visualize the flow in the test section of an indraft supersonic wind tunnel in the University of ...
Research in aerodynamics and flow physics often require visual experiments in order to understand th...
Research in aerodynamics and flow physics often require visual experiments in order to understand th...
The present invention is a system and method of visualizing fluid flow around an object, such as an ...
This presentation describes the development and use of Background Oriented Schlieren (BOS) on a full...
This article describes the development and use of Background Oriented Schlieren on a full-scale supe...
Advancing the state of the art of schlieren photography for validation of wind tunnel and CFD effort...
Schlieren flow visualization methods are an important part of high speed wind tunnel testing, being ...
This is a presentation to be given at an internal NASA Advanced Schlieren Working Group Meeting. The...
Background Oriented Schlieren (BOS) is a derivative of the classical schlieren technology, which is ...
Visualisation of supersonic compressible flows using the Background Oriented Schlieren (BOS) techniq...
Visualization of the flow field around a generic re-entry capsule in subsonic flow and shock wave vi...
This paper presents the results of visualization of separated flow around a generic entry capsule th...
In this paper we present a novel measurement technique based on the refractive index variation in a ...
This is a presentation for an invited session at the 2015 SciTech Conference 53rd AIAA Aerospace Sci...
To visualize the flow in the test section of an indraft supersonic wind tunnel in the University of ...
Research in aerodynamics and flow physics often require visual experiments in order to understand th...
Research in aerodynamics and flow physics often require visual experiments in order to understand th...