Advances in Cryogenic Engineering, Volume 11Klaus D. Timmerhaus Cryogenic Engineering Conference, 1965 - Low temperature engineering |
Contents
A1 The Impact of the Space Age on Cryogenics A O TISCHLER NASA | 1 |
A2 Helium Refrigerator and Liquefier S C COLLINS Massachusetts Institute | 11 |
B2 Effects of Compressive Loads on the Heat Flux Through Multilayer Insula | 26 |
Copyright | |
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Common terms and phrases
Advances in Cryogenic alloy aluminum Answer by author approximately bath biaxial boiloff bubble chamber cable calculated coefficient coil compression constant convection cooling copper correlation cryogenic Cryogenic Engineering cryopanel cryopumped cryostat curve cycle density determined dewar diameter effect electroformed equation equilibrium experimental film boiling flow fluid heat exchanger heat flux heat leak heat transfer heater increase layers liquid helium liquid hydrogen liquid nitrogen load mass material maximum measured mechanical methane mixture Mylar neon Nusselt obtained operation oxygen parahydrogen phase pipe Plenum Press predicted propellant properties psia pump purge ratio refrigeration reliquefier resistance Reynolds number room temperature sample seal sensor shingle shown in Fig slush solenoid solid space specimen stainless-steel storage stress superconducting superinsulation surface Table tank test section thermal conductivity thermocouples thickness tube vacuum values valve vapor vessel voltage wall weld winding wire yield strength