Evaluation of space station ATCS evolution growth paths
Evaluation of space station ATCS evolution growth paths
- New search for: Ames, Brian E.
- New search for: Petete, Patricia A.
- New search for: Ames, Brian E.
- New search for: Petete, Patricia A.
This paper determines the feasibility of potential Active Thermal Control System (ATCS) growth paths by assessing thermal, integration, and implementation impacts. Thermal Radiation Analysis System/Infrared Radiation Transfer (TRASYS/IRTRAN) models were used to evaluate the effects of increased radiator temperature, increased radiator area, and radiator wing addition on Space Station Freedom (SSF) elements, including energy reflected back to the ATCS. Systems Improved Numerical Differencing Analyzer/Fluid Integrator (SINDA/FLUINT) models were used to determine the heat rejection capability of an ATCS loop with an integrated heat pump that operates with Electric Power System (EPS) peak power. The effects of upgrading the ATCS by advanced technology Orbital Replacement Unit (ORU) implementation during maintenance replacements was also evaluated. The study results presented lead to conclusions on which paths are best suited for different growth scenarios.
Document information
Evaluation of space station ATCS evolution growth paths
International Conference on Environmental Systems ; 1993 ; Colorado Springs, CO, United States
1993-01-01
Conference paper
No indication
English
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