Concept for a Cascaded Multi-Mission Radioisotope Thermoelectric Generator

C. Barklay, D. Kramer, C. Whiting, R. Ambrosi, R. Mesalam
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引用次数: 4

Abstract

A multi-mission radioisotope thermoelectric generator (MMRTG) powers Curiosity, the National Aeronautics and Space Administration (NASA) Mars Science Laboratory rover on Mars. Consideration is being given to the feasibility of integrating a second thermoelectric circuit of bismuth telluride (Bi2Te3) into the MMRTG design in order to improve the beginning-of-life (BOL) and end-of-design life (EODL) performance. The maturity of Bi2Te3 and the design flexibility of a cascaded approach enable a low-risk system upgrade that is predicted to enhance the MMRTG's performance. Initial studies indicate that the integration of a second stage Bi2Te3 thermoelectric circuit could potentially provide an approximate 20% increase in power output at BOL and EODL (with EODL defined as 17 years from fueling). This paper presents an overview of the results of the study.
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级联多任务放射性同位素热电发生器的概念
多任务放射性同位素热电发电机(MMRTG)为好奇号提供动力,好奇号是美国国家航空航天局(NASA)火星科学实验室在火星上的漫游者。目前正在考虑将第二种碲化铋(Bi2Te3)热电电路集成到MMRTG设计中的可行性,以提高寿命开始(BOL)和设计寿命结束(EODL)性能。Bi2Te3的成熟度和级联方法的设计灵活性使低风险的系统升级成为可能,预计将提高MMRTG的性能。初步研究表明,第二阶段Bi2Te3热电电路的集成可能会使BOL和EODL (EODL定义为加油后17年)的功率输出增加约20%。本文概述了研究结果。
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