Modeling and Analyses of a Thermal Passively Stabilized LEO/GEO Star Tracker With Embedded Phase Change Material Applying the Infused Thermal Solutions (ITS) Method

Date

2021-07-12

Journal Title

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Volume Title

Publisher

50th International Conference on Environmental Systems

Abstract

Phase change materials offer a way of storing excess heat and releasing it when it is needed. They can be utilized as a method to control thermal behavior without the need for additional energy. This work focuses on exploring the potential of using phase change materials to passively control the thermal behavior of a star tracker by infusing it with a fitting phase change material. Based on the numerical model of the star trackers thermal behavior using ESATAN-TMS without implemented phase change material, a fitting phase change material for selected orbits is chosen and implemented in the thermal model. The altered thermal behavior of the numerical model after the implementation is analyzed for different amounts of the chosen phase change materials using an ESATAN-based subroutine developed by the FH Aachen. The PCM-modelling-subroutine is explained in the paper ICES-2021-110. The results show that an increasing amount of phase change material increasingly damps temperature oscillations. Using an integral part structure some of the mass increase can be compensated.

Description

David-Sharif Kohlberger, FH Aachen - University of Applied Sciences
Dominik Wild, FH Aachen - University of Applied Sciences
Stefan Kasper, Jena-Optronik
Markus Czupalla, FH Aachen - University of Applied Sciences
ICES202: Satellite, Payload, and Instrument Thermal Control
The 50th International Conference on Environmental Systems was held virtually on 12 July 2021 through 14 July 2021.

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Keywords

Passive thermal control, PCM, star tracker, Infused Thermal Solutions, GEO, LEO

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