Intermediate Temperature Ceramic Heat Pipe Modeling and Optimization

Intermediate Temperature Ceramic Heat Pipe Modeling and Optimization

Spacecraft nuclear electric propulsion, as well as other emerging technologies, can benefit from heat pipes with optimal performance in the intermediate temperature, 450–700 K, regime. In this work, a 1D model was developed to investigate the performance of halide working fluids coupled with 3D prin...

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Bibliographische Detailangaben
Hauptverfasser: Paridon, Andrew van, D'Orazio, Giancarlo, Sixel, William R., Sobhani, Sadaf
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Fluid Mechanics and Thermodynamics
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Zusammenfassung:Spacecraft nuclear electric propulsion, as well as other emerging technologies, can benefit from heat pipes with optimal performance in the intermediate temperature, 450–700 K, regime. In this work, a 1D model was developed to investigate the performance of halide working fluids coupled with 3D printed-ceramic shells to operate at 500–600 K and interface with a nuclear electric propulsion system. An initial conceptual design and performance limits of a 3D printed-AlN heat pipe radiator with AlBr3 as the working fluid is presented. An areal density of 5.2 kg/m2 and mass per unit heat performance of 1.00kg/kW is estimated.