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Stirling Convertor Control for a Concept Rover at NASA Glenn Research Center

机译：美国国家航空航天局格伦研究中心的概念车的斯特林变流器控制

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The U.S. Department of Energy (DOE), Lockheed Martin Space Systems Company (LMSSC), Sunpower Inc., and NASA Glenn Research Center (GRC) have been developing an Advanced Stirling Radioisotope Generator (ASRG) for potential use as an electric power system for space science missions. This generator would make use of the free-piston Stirling cycle to achieve higher conversion efficiency than currently used alternatives. NASA GRC initiated an experiment with an ASRG simulator to demonstrate the functionality of a Stirling convertor on a mobile application, such as a rover. The ASRG simulator made use of two Advanced Stirling Convertors to convert thermal energy from a heat source to electricity. The ASRG simulator was designed to incorporate a minimum amount of support equipment, allowing integration onto a rover powered directly by the convertors. Support equipment to provide control was designed including a linear AC regulator controller, constant power controller, and Li-ion battery charger controller. The ASRG simulator is controlled by a linear AC regulator controller. The rover is powered by both a Stirling convertor and Li-ion batteries. A constant power controller enables the Stirling convertor to maintain a constant power output when additional power is supplied by the Li-ion batteries. A Li-ion battery charger controller limits the charging current and cut off current of the batteries. This paper discusses the design, fabrication, and implementation of these three controllers.

机译：美国能源部（DOE），洛克希德·马丁太空系统公司（LMSSC），Sunpower Inc.和NASA格伦研究中心（GRC）已开发出一种先进的斯特林放射性同位素发生器（ASRG），可潜在地用作电力系统。太空科学任务。该发电机将利用自由活塞斯特林循环来实现比目前使用的替代方案更高的转换效率。 NASA GRC使用ASRG模拟器启动了一项实验，以演示斯特林转换器在移动应用程序（例如流动站）上的功能。 ASRG模拟器利用两个先进的斯特林转换器将热能从热源转换为电。 ASRG仿真器旨在整合最少数量的支持设备，从而可以集成到由转换器直接供电的流动站上。设计用于提供控制的支持设备，包括线性交流稳压器控制器，恒定功率控制器和锂离子电池充电器控制器。 ASRG仿真器由线性AC调节器控制器控制。流动站由斯特林转换器和锂离子电池供电。当锂离子电池提供额外的电源时，恒定功率控制器可使斯特林转换器保持恒定的功率输出。锂离子电池充电器控制器会限制电池的充电电流并切断电流。本文讨论了这三个控制器的设计，制造和实现。

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Blaze-Dugala Gina M.;
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3. NASA Glenn Research Center Creek Road Cryogenic Complex: Testing between 2005-2019 [J] . Hartwig Jason, Johnson Wesley, Bamberger Helmut, Cryogenics . 2020,第期

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4. Stirling Convertor Control for a Concept Rover at NASA Glenn Research Center [C] . G. Blaze 6th International Energy Conversion Engineering Conference (IECEC) . 2008

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8. Stirling Convertor Control for a Concept Rover at NASA Glenn Research Center [R] . Blaze-Dugala, Gina M. 2009

机译：美国宇航局格伦研究中心的概念车的斯特林转换器控制

Stirling Convertor Control for a Concept Rover at NASA Glenn Research Center

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