Open AccessThree Canted Radiator Panels to Provide Adequate Cooling for Instruments on Slewing Spacecraft in LEO
Author(s) -
Michael K. Choi
Publication year - 2012
Publication title -
7th international energy conversion engineering conference
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2012-3895
Subject(s) - radiator (engine cooling) , spacecraft , aerospace engineering , automotive engineering , environmental science , engineering , remote sensing , computer science , geology
*Certain free-flying spacecraft in low Earth orbit (LEO) or payloads on the International Space Station (ISS) are required to slew to point the telescopes at targets. Instrument detectors and electronics require cooling. Traditionally a planar thermal radiator is used. The temperature of such a radiator varies significantly when the spacecraft slews because its view factors to space vary significantly. Also for payloads on the ISS, solar impingement on the radiator is possible. These thermal adversities could lead to inadequate cooling for the instrument. This paper presents a novel thermal design concept that utilizes three canted radiator panels to mitigate this problem. It increases the overall radiator view factor to cold space and reduces the overall solar or albedo flux absorbed per unit area of the radiator.
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