Publication Date:
2019-07-13
Description:
Mathematical models were developed for one-, two-, and three-stage radiator systems to determine optimum stage areas and system performance as a function of such parameters as insulation effectiveness, cold stage temperature, and heat load to the cold and intermediate stages. This study shows that multistage radiator systems can be optimized on the basis of weight or projected area, and that cold stage temperatures as low as 15 K are theoretically possible with present technology levels for insulation emittance. For the baseline design, analyses were performed to determine optimum radiator fin geometry and heat pipe spacing as a function of temperature, material properties, and heat pipe weight. In addition, a ground test system was designed for the baseline design with heat rejection requirements of 10 MW at 35 K on the cold stage and 100 MW at the second stage.
Keywords:
FLUID MECHANICS AND HEAT TRANSFER
Type:
AIAA PAPER 77-760
,
Thermophysics Conference; Jun 27, 1977 - Jun 29, 1977; Albuquerque, NM
Format:
text
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