Add to ORKGThe cryogenic wind-tunnel concept as a practical means for improving ground simulation of transonic flight conditions. The Langley 1/3-meter transonic cryogenic tunnel is operational, and the design of a cryogenic National Transonic Facility is undertaken. A review of some of the unique capabilities of cryogenic wind tunnels is presented. In particular, the advantages of having independent control of tunnel Mach number, total pressure, and total temperature are highlighted. This separate control over the three tunnel parameters will open new frontiers in Mach number, Reynolds number, aeroelastic, and model-tunnel interaction studies
The minimum operating temperature which avoids real-gas effects, such as condensation, was determine...
The cryogenic concept and the advantages it offers with respect to achieving full scale Reynolds num...
Theoretical considerations indicate that cooling the wind-tunnel test gas to cryogenic temperatures ...
The results of the cryogenic wind tunnel program conducted at NASA Langley Research Center are prese...
A compilation of lectures presented at various Universities over a span of several years is discusse...
The theory and advantages of the cryogenic tunnel concept are briefly reviewed. The unique ability t...
A representative, control compatible, mathematical model of a cryogenic wind tunnel was synthesized ...
The characteristics and behavior of a 0.3m transonic cryogenic wind tunnel are discussed. The wide b...
Based on theoretical studies and experience with a low speed cryogenic tunnel and with a 1/3-meter t...
Experiments performed at the NASA Langley Research Center in a cryogenic low-speed continuous-flow t...
The principal motivating factor was the National Transonic Facility (NTF). Since the NTF can achieve...
A study was undertaken to model the cryogenic wind tunnel process, to validate the model by the use ...
The past 6 years of operation with the NASA Langley 0.3 m transonic cryogenic tunnel (TCT) show that...
A pilot transonic cryogenic pressure tunnel has recently been developed and proof tested at the NASA...
The design and performance of a low speed one atmosphere cryogenic wind tunnel is described. The tun...
The minimum operating temperature which avoids real-gas effects, such as condensation, was determine...
The cryogenic concept and the advantages it offers with respect to achieving full scale Reynolds num...
Theoretical considerations indicate that cooling the wind-tunnel test gas to cryogenic temperatures ...
The results of the cryogenic wind tunnel program conducted at NASA Langley Research Center are prese...
A compilation of lectures presented at various Universities over a span of several years is discusse...
The theory and advantages of the cryogenic tunnel concept are briefly reviewed. The unique ability t...
A representative, control compatible, mathematical model of a cryogenic wind tunnel was synthesized ...
The characteristics and behavior of a 0.3m transonic cryogenic wind tunnel are discussed. The wide b...
Based on theoretical studies and experience with a low speed cryogenic tunnel and with a 1/3-meter t...
Experiments performed at the NASA Langley Research Center in a cryogenic low-speed continuous-flow t...
The principal motivating factor was the National Transonic Facility (NTF). Since the NTF can achieve...
A study was undertaken to model the cryogenic wind tunnel process, to validate the model by the use ...
The past 6 years of operation with the NASA Langley 0.3 m transonic cryogenic tunnel (TCT) show that...
A pilot transonic cryogenic pressure tunnel has recently been developed and proof tested at the NASA...
The design and performance of a low speed one atmosphere cryogenic wind tunnel is described. The tun...
The minimum operating temperature which avoids real-gas effects, such as condensation, was determine...
The cryogenic concept and the advantages it offers with respect to achieving full scale Reynolds num...
Theoretical considerations indicate that cooling the wind-tunnel test gas to cryogenic temperatures ...