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7 September 2010 Development of versatile molecular transport model for modeling spacecraft contamination
Chien W. Chang, Keith Kannenberg, Michael H. Chidester
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Proceedings Volume 7794, Optical System Contamination: Effects, Measurements, and Control 2010; 77940O (2010) https://doi.org/10.1117/12.860044
Event: SPIE Optical Engineering + Applications, 2010, San Diego, California, United States
Abstract
This paper describes a MATLAB-based molecular transport model developed for modeling contamination of spacecraft and optical instruments in space. The model adopts the Gebhart inverse-matrix theory for thermal radiation to analyze mass (molecular) transfer due to direct and reflected flux processes by balancing the mass fluxes instead of heat fluxes among surfaces with prescribed boundary conditions (contamination sticking fractions). The model can easily input view factor results from current thermal tools as well as measured outgassing data from ASTM E 1559 tests or vacuum bake-outs of flight components. Application examples of a geosynchronous satellite and an optical telescope are given to demonstrate versatile applications of the developed model.
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Chien W. Chang, Keith Kannenberg, and Michael H. Chidester "Development of versatile molecular transport model for modeling spacecraft contamination", Proc. SPIE 7794, Optical System Contamination: Effects, Measurements, and Control 2010, 77940O (7 September 2010); https://doi.org/10.1117/12.860044
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KEYWORDS
Contamination
Space operations
Instrument modeling
Charge-coupled devices
Systems modeling
Optical telescopes
Reflection
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