论文信息 - Study of active cooling for supersonic transports

Study of active cooling for supersonic transports

The potential benefits of using the fuel heat sink of hydrogen fueled supersonic transports for cooling large portions of the aircraft wing and fuselage are examined. The heat transfer would be accomplished by using an intermediate fluid such as an ethylene glycol-water solution. Some of the advantages of the system are: (1) reduced costs by using aluminum in place of titanium, (2) reduced cabin heat loads, and (3) more favorable environmental conditions for the aircraft systems. A liquid hydrogen fueled, Mach 2.7 supersonic transport aircraft design was used for the reference uncooled vehicle. The cooled aircraft designs were analyzed to determine their heat sink capability, the extent and location of feasible cooled surfaces, and the coolant passage size and spacing.

G. D. Brewer | R. E. Morris

[1] G H Christoph,et al. A Simple New Analysis of Compressible Turbulent Two-Dimensional Skin Friction Under Arbitrary Conditions , 1971 .

[2] Ernst R. Eckert. SURVEY OF BOUNDARY LAYER HEAT TRANSFER AT HIGH VELOCITIES AND HIGH TEMPERATURES , 1960 .

[3] E. J. Hopkins. Charts for predicting turbulent skin friction from the Van Driest method (2) , 1972 .

[4] L. Boney,et al. A simple integral method for the calculation of real-gas turbulent boundary layers with variable edge entropy , 1971 .

[5] C. Frederick Hansen,et al. Approximations for the thermodynamic and transport properties of high-temperature air , 1958 .

[6] D. B. Spalding,et al. The drag of a compressible turbulent boundary layer on a smooth flat plate with and without heat transfer , 1964, Journal of Fluid Mechanics.

[7] F. M. Anthony,et al. Design of a convective cooling system for a Mach 6 hypersonic transport airframe. , 1972 .