This paper describes a novel thermal design architecture that enables satellites to be conceived, configured, launched, and operationally deployed very quickly. The architecture has been given the acronym SMARTS for Satellite Modular and Reconfigurable Thermal System and it involves four basic design rules: modest radiator oversizing, maximum external insulation, internal isothermalization and radiator heat flow modulation. The SMARTS philosophy is being developed in support of the DoD Operationally Responsive Space (ORS) initiative which seeks to drastically improve small satellite adaptability, deployability, and design flexibility. To illustrate the benefits of the philosophy for a prototypical multi‐paneled small satellite, the paper describes a SMARTS thermal control system implementation that uses: panel‐to‐panel heat conduction, intra‐panel heat pipe isothermalization, radiator heat flow modulation via a thermoelectric cooler (TEC) cold‐biased loop heat pipe (LHP) and maximum external multi‐layer insulation (MLI). Analyses are presented that compare the traditional “cold‐biasing plus heater power” passive thermal design approach to the SMARTS approach. Plans for a 3‐panel SMARTS thermal test bed are described. Ultimately, the goal is to incorporate SMARTS into the design of future ORS satellites, but it is also possible that some aspects of SMARTS technology could be used to improve the responsiveness of future NASA spacecraft. [22 CFR 125.4(b)(13) applicable]


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    Title :

    Thermal Management Architecture for Future Responsive Spacecraft


    Contributors:

    Conference:

    SPACE, PROPULSION & ENERGY SCIENCES INTERNATIONAL FORUM: SPESIF‐2009 ; 2009 ; Huntsville (Alabama)


    Published in:

    AIP Conference Proceedings ; 1103 , 1 ; 30-38


    Publication date :

    2009-03-16


    Size :

    9 pages





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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