Research and development of high-efflciency and high-performance electric rocket engines for future space missions at osaka institute of technology

2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA) Pub Date : 2016-11-01 DOI:10.1109/ICRERA.2016.7884425

H. Tahara, Ryota Fujita, Masato Tanaka, Kyoko Takada, T. Ikeda

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引用次数: 1

Abstract

Electric rocket engines (electric thruster), in which electric energy is converted to kinetic one, are suitable for future long missions in space because they can achieve higher specific impulse, i.e., higher propellant serving than conventional chemical thrusters. At Osaka Institute of Technology (OIT), several kinds of electric thruster, that is, magneto-plasma-dynamic (MPD) thruster, direct-current (DC) arcjet thruster, pulsed plasma thruster (PPT) and Hall thruster, have been investigated and developed for future space missions. Furthermore, a nano-satellite with the electric thruster, the 1st PROITERES (Project of Osaka Institute of Technology Electric Rocket Engine onboard Small Space Ship), was launched, and the next satellites of PROITERES 2 and 3 are under development. We introduce recent R&D feature of electric thrusters at OIT. Accordingly, our all thrusters had high efficiency and high performance, and their systems are under development in practical use in space.

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大阪工业大学为未来空间任务研究和开发高效率和高性能的电动火箭发动机

将电能转化为动能的电动火箭发动机(电动推力器)比传统的化学推力器具有更高的比冲，即更高的推进剂用量，适用于未来的长期空间任务。在大阪工业大学(OIT)，已经研究和开发了几种用于未来空间任务的电动推进器，即磁等离子体动力(MPD)推进器、直流(DC)电弧推进器、脉冲等离子体推进器(PPT)和霍尔推进器。此外，还发射了一颗带有电动推进器的纳米卫星，即第一颗PROITERES(大阪工业大学小型宇宙飞船电动火箭发动机项目)，下一颗PROITERES 2号和3号卫星正在研制中。介绍了OIT电动推进器的最新研发特点。因此，我们所有的推进器都具有高效率和高性能，它们的系统正在开发中，在太空中实际使用。

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2016 IEEE International Conference on Renewable Energy Research and Applications (ICRERA)

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