Abstract
In this paper, quantitative experiments were made to measure the concentration of key intermediate products (CO, , and NO) and the gas temperature for combustion flow based on near-infrared and mid-infrared laser absorption spectroscopy. This paper used the developed diagnostic system to study two main ignition modes of a real 1-Newton thruster based on ammonium dinitramide (ADN): steady-state firing and pulse-mode firing over a feed pressure of 5–12 bar. The steady-state firing experiments distinguished the whole process into catalytic decomposition stage and combustion stage, experimentally demonstrating the combustion kinetics mechanism of an ADN monopropellant. Experiments for pulse-mode firing showed the measured multispecies concentration and temperature were consistent with pulse trains, verifying good performance for the thruster pulse-mode firing operation. The performance of the thruster was given based on the optical measurements, and characteristic velocity for the ADN-based thruster standard operation was higher than the corresponding 1-Newton hydrazine thruster.
© 2018 Optical Society of America
Full Article | PDF ArticleMore Like This
Juan E. Duque, Sebastian López, and Alejandro Molina
Appl. Opt. 57(23) 6707-6716 (2018)
Holger Teichert, Thomas Fernholz, and Volker Ebert
Appl. Opt. 42(12) 2043-2051 (2003)
D. R. Hastie and M. D. Miller
Appl. Opt. 24(22) 3694-3701 (1985)