The receiver/storage unit for the low-Earth-orbiting Stirling system is discussed. The design, referred to as the cavity heat pipe (CHP), has been optimized for minimum specific mass and volume width. A specific version of this design at the 7 kWe level has been compared to the Space Station Brayton solar dynamic design. The Space Station design utilizes a eutectic mixture of LiF and CaF/sub 2/. Using the same phase change material, the CHP has been shown to have a specific mass of 40% and a volume of 5% of that of the Space Station Brayton at the same power level. Additionally, it complements the free-piston Stirling engine in that it also maintains a relatively flat specific mass down to at least 1 kWe. The technical requirements, tradeoff studies, critical issues, and critical technology experiments are discussed.
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机译:讨论了低地球轨道斯特林系统的接收器/存储单元。该设计被称为腔体热管(CHP),已针对最小单位质量和体积宽度进行了优化。该设计在7 kWe级别的特定版本已与空间站布雷顿(Brayton)太阳动力设计进行了比较。空间站的设计利用了LiF和CaF / sub 2 /的共晶混合物。使用相同的相变材料,在相同的功率水平下,CHP的比重已显示为40%,体积为空间站布雷顿的5%。此外,它还补充了自由活塞斯特林发动机的优势,因为它还保持了相对平坦的比重至至少1 kWe。讨论了技术要求,权衡研究,关键问题和关键技术实验。
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