小功率氩电弧推力器性能实验研究

推进技术 ›› 2013, Vol. 34 ›› Issue (11): 1580-1584.

• 新型动力 • 上一篇

小功率氩电弧推力器性能实验研究

段锟,潘文霞,孟显,黄河激

中国科学院力学研究所,北京 100190;中国科学院力学研究所,北京 100190;中国科学院力学研究所,北京 100190;中国科学院力学研究所,北京 100190

发布日期:2021-08-15
作者简介:段锟(1987—),男,硕士生,研究领域为应用等离子体力学。E-mail:duankunandy@163.com
基金资助:
国家自然科学基金(10921062,7)。

Investigation for Performance of Very-Low-Power Argon Arcjet Thruster

Institute of Mechanics, Chinese Academy of Sciences,Beijing 100190, China;Institute of Mechanics, Chinese Academy of Sciences,Beijing 100190, China;Institute of Mechanics, Chinese Academy of Sciences,Beijing 100190, China;Institute of Mechanics, Chinese Academy of Sciences,Beijing 100190, China

Published:2021-08-15

摘要/Abstract

摘要： 为了对适合小卫星使用的电弧加热推进系统的优化设计提供一定的参考,自行设计了输入电功率数瓦至数十瓦的小功率电弧等离子体推力器及其运行性能实验系统,包括一种气动小推力的间接测量系统。对四种不同喷管结构和尺寸的小功率电弧推力器,实验检测了所产生的推力随着弧电流和推进剂流量的变化。结果显示:在气流量4.5~10.5mg/s,输入功率3~35W的条件下,推力器产生的最大推力约为9.7mN,最大比冲约为110s；减小喉道直径,适当增加扩张比有助于提高小功率Arcjet的性能；当弧电流在10~110mA范围内变化时,弧电压的变化范围约为210~280V,气体的放电形式有别于传统的电弧加热推力器。 

关键词: 小功率电弧推力器;气动小推力;比冲;推力效率 

Abstract: In order to provide a reference for the optimization design of arcjet thruster for small satellite propulsion system, very-low-power arcjet thrusters with input power of a few watts to tens of watts and performance testing system, including an indirect measurement system of aerodynamic small thrust were designed and built up. The generated thrust was measured with the variations of operating parameters of arc voltage, arc current and gas flow rates. Experimental results show that under the conditions of gas flow rate of 4.5~10.5mg/s and and input power of 3~35W, the largest thrust generated by the very-low-power arcjet is about 9.7mN, and the maximum specific impulse is about 110s. The narrow throat and large expansion ratio can be beneficial for the performance of very-low-power arcjet. When the arc current is increased from 10~110mA, the arc voltage is increased from 210~280V.In addition, the gas discharge mode may be different from traditional arcjet.

Key words: Very-low-power arcjet thruster;Aerodynamic small thrust; Specific impulse; Thrust efficiency

段锟,潘文霞,孟显,黄河激. 小功率氩电弧推力器性能实验研究[J]. 推进技术, 2013, 34(11): 1580-1584.

DUAN Kun, PAN Wen-xia, MENG Xian, HUANG He-ji. Investigation for Performance of Very-Low-Power Argon Arcjet Thruster[J]. Journal of Propulsion Technology, 2013, 34(11): 1580-1584.

参考文献

[1] 潘科炎.小卫星的推进系统[J].航天控制,1996,(2).
[2] 魏延明.国外卫星推进技术发展现状与未来20年发展趋势[J].航天制造技术, 2011,9(2):7-12.
[3] 吴汉基,蒋远大,张志远,王鲁峰.微小卫星的在轨推进技术[J].火箭推进,2006,2(3):40-43.
[4] 潘文霞, 李腾, 黄河激,等.氮-氢电弧加热推力器运行参数与性能[J].推进技术,2008.8,9(4):494-497.(PAN Wen-xia, LI Teng, HUANG He-ji,et al.Low Power H₂-N₂Arcjet Thruster Operation and Performance[J].Journal of Propulsion Technonogy, 2008.8,9(4):494-497.)
[5] Horisawa H,Kimura I.Influence of Constrictor Size on Thrust Performance of a Very Low Power Arcjet [R].AIAA 98-3633.
[6] Horisawa H,Kimura I.Very Low-Power Arcjet Testing [J].Vacuum, 2000,9(1):106-117.
[7] Horisawa H, Kosuke O,Kimura I.Optimum Operational Conditions and Microfabrications with UV Lasers of very Low-Power DC Micro-Arcjets[J].Vacuum,2006,0(11-12):1244-1251.
[8] Horisawa H, Onodera K, Noda T.Multi-Jet Effects of Micro-Nozzle Array in very Low-Power DC Micro-Arcjets [R].AIAA 2006-4496.
[9] John S, Ewing J J.Microarcjet Microthruster for Nanosat [R].AIAA 2007-5181.
[10] John S, Samuel A, Timothy Z.Micro-discharge Micro-thruster [R].AIAA 2005-4074.
[11] Wollenhaupt B L, Hammer A, Herdrich G,et al.A Very Low Power Arcjet (VELARC) for Small Satellite[J].IEPC-2011-257.
[12] Kothnur P S, Raja L L.Simulation of Direct-Current Microdischarges for Application in Electro-Thermal Class of Small Satellite Propulsion Devices [J].Contributions to Plasma Physics, 2007,7(1-2):9-18.
[13] Wu C K, Wang H X,Meng X,et al.Aerodynamics of Indirect Thrust Measurement by the Impulse Method[J].Acta Mechanica Sinica, 2011,(2):152-163.
[14] 岑继文, 徐进良.微推力与冲击力关系的实验研究[J].推进技术, 2009.2,0(1):114-120.(CEN Ji-wen,XU Jin-liang.Experimental Investigation on the Relation Between Micro-Thrust and Impinging Force[J].Journal of Propulsion Technonogy, 2009.2,0(1):114-120.)
[15] 潘文霞, 黄河激, 孟显,等.低功率电弧加热推力器喷管温度与性能[J].推进技术, 2011.12,2(6):852-856.(PAN Wen-xia, HUANG He-ji, MENG Xian, et al.Effect of Nozzle Temperature on the Performance of Low Power Arcjet Thrusters[J].Journal of Propulsion Technonogy, 2011.12,2(6):852-856.)

小功率氩电弧推力器性能实验研究

Investigation for Performance of Very-Low-Power Argon Arcjet Thruster

PDF

可视化

被引次数

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics

本文评价