强激光与粒子束, 2012, 24 (10): 2469, 网络出版: 2012-09-24
20 cm氙离子推力器放电室性能优化
Performance optimization of 20 cm xenon ion thruster discharge chamber
离子推力器 放电室 束流离子生产成本 推进剂利用率 ion thruster discharge chamber beam ion production cost propellant utilization
摘要
束流离子生产成本和推进剂利用率是表征离子推力器放电室性能的重要参数。在考虑不改变放电室几何结构、磁场分布并保持离子推力器比冲和效率的前提下,利用一维经验分析模型对兰州空间技术物理研究所研制的LIPS-200离子推力器放电室性能进行了优化分析,以实现推力器的推力从40 mN提高到60 mN的目标要求。分析结果表明,提高放电室推进剂流率至2.06 mg/s,放电室内放电电流维持在6.9 A,放电室内平均氙离子密度达到2.167×1017 m-3时,可以保证引出1.2 A的束流,推力器达到60 mN的推力。与之对应的推进剂利用率为92%,束流离子生产成本约为188.515 W/A,相比推力40 mN时,推进剂利用率为88%、束流离子生产成本为188.29 W/A的情况,放电室性能有所提高。另外,放电室性能优化过程中其鞘层电位始终保持在3.80~6.65 eV范围内。
Abstract
This paper describes the performance of the LIPS-200 ion thruster discharge chamber which was developed by Lanzhou Institute of Physics. Based on the discharge chamber geometric configuration and magnetic field, the completely self-consistent analytical model is utilized to discuss performance optimization of the discharge chamber of the LIPS-200. The thrust is enhanced from 40 mN up to 60 mN at rated impulse and efficiency. The results show that the 188.515 W/A beam ion production cost at a propellant flow rate of 2.167×1017 m-3 requires that the thruster runs at a discharge current of 6.9 A to produce 1.2 A ion beam current. Also, during the process of LIPS-200 ion thruster discharge chamber performance optimization, the sheath potential is always within 3.80~6.65 eV.
陈娟娟, 张天平, 贾艳辉, 李小平. 20 cm氙离子推力器放电室性能优化[J]. 强激光与粒子束, 2012, 24(10): 2469. Chen Juanjuan, Zhang Tianping, Jia Yanhui, Li Xiaoping. Performance optimization of 20 cm xenon ion thruster discharge chamber[J]. High Power Laser and Particle Beams, 2012, 24(10): 2469.