Abstract
The plasma-based technique was studied for ignition and flameholding in a supersonic airflow in different laboratories for a long time. It was shown that flameholding of gaseous and liquid hydrocarbon fuel is feasible by means of surface DC discharge without employing mechanical flameholders in a supersonic combustion chamber. However, a high power consumption may limit application of this method in a real apparatus. This experimental and computational work explores a distributed plasma system, which allows reducing the total energy consumption and extending the life cycle of the electrode system. Due to the circuit flexibility, this approach may be potentially enriched with feedbacks for design of a close loop control system.
Cite
CITATION STYLE
Firsov, A. A., Dolgov, E. V., Leonov, S. B., & Yarantsev, D. A. (2017). Advanced Ignition in Supersonic Airflow by Tunable Plasma System. In IOP Conference Series: Materials Science and Engineering (Vol. 249). Institute of Physics Publishing. https://doi.org/10.1088/1757-899X/249/1/012022
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