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采用滤光成像,摒弃电弧及羽流干扰,实验获得了采用纯氮、纯氢以及氢-氮混合气为推进剂时,低功率电弧加热发动机喷管内壁面的热辐射强度分布。通过辐射强度-温度标定以及图像分析,导出了相应的温度分布。实验结果表明,喷管扩张段内壁面温度最高处位于喉道出口附近。采用不同推进剂时,喷管内壁面温度分布情况有显著区别。

Using an interference filter,thermal radiation images of the inner nozzle surface were obtained for a low power arcjet thruster.The interference filter was selected to cut off disturbance from arc and plume emissions when pure nitrogen,pure hydrogen and their mixtures were used as the propellant.Relationship between the radiation intensity and the temperature was calibrated and the corresponding temperature distribution was calculated based on the radiation intensity distribution obtained by image analysis.Results show that the highest temperature zone locates downstream close to the throat exit and the temperature distributions for different propellants vary a lot.

参考文献

[1] 汤海滨,张正科,刘宇,戴梧叶.小功率电弧等离子体发动机试验及性能分析[J].推进技术,2001(03):233-236,244.
[2] 潘文霞,LI Teng,黄河激,LIN Lie,吴承康.氢-氮电弧加热推力器运行参数与性能[J].推进技术,2008(04):494-497.
[3] 李腾,潘文霞,林烈,吴承康.一种电弧加热推进器推力测试架[J].宇航计测技术,2008(02):17-20.
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