Fuel ignition using remote generation of microwave plasma in air at atmospheric pressure

被引:0
|
作者
Fragge, Beatrice [1 ,2 ]
Sokoloff, Jerome [2 ]
Rouzaud, Olivier [1 ]
Pascal, Olivier [2 ]
Orain, Mikael [1 ]
机构
[1] Univ Toulouse, ONERA, DMPE, F-31055 Toulouse, France
[2] Univ Toulouse, CNRS, LAPLACE, Toulouse, France
来源
EUROPEAN PHYSICAL JOURNAL-APPLIED PHYSICS | 2024年 / 99卷
关键词
Fuel ignition; Microwave plasma; Time reversal; Split Ring Resonator; Combustion chamber;
D O I
10.1051/epjap/2023230152
中图分类号
O59 [应用物理学];
学科分类号
摘要
The high demand for a new ignition device for aeronautical engines has motivated the study on an innovative microwave approach, presented in this paper. A dedicated experimental set-up is presented in which we demonstrate the successful ignition of a kerosene spray by a remotely excited microwave plasma. This plasma is created in a Split Ring Resonator (SRR) gap, placed in a copper cavity, in air at atmospheric conditions at the frequency of f = 2.8467 GHz and a pulsed power injected into the cavity of P-cav approximate to 1500 W.
引用
收藏
页数:7
相关论文
共 50 条
  • [1] Liquid fuel reforming using microwave plasma at atmospheric pressure
    Miotk, Robert
    Hrycak, Bartosz
    Czylkowski, Dariusz
    Dors, Miroslaw
    Jasinski, Mariusz
    Mizeraczyk, Jerzy
    PLASMA SOURCES SCIENCE & TECHNOLOGY, 2016, 25 (03):
  • [2] A microwave air plasma source under atmospheric pressure
    Liu Liang
    Zhang Gui-Xin
    Feng Jian
    Wang Xin-Xin
    Luo Cheng-Mu
    CHINESE PHYSICS LETTERS, 2008, 25 (03) : 1019 - 1021
  • [3] FUEL GAS PRODUCTION BY PLASMA IN A MICROWAVE OVEN AT ATMOSPHERIC PRESSURE
    Nomura, Shinfuku
    Putra, Andi Erwin Eka
    Toyota, Hiromichi
    Mukasa, Shinobu
    Yamashita, Hiroshi
    PROCEEDINGS OF THE ASME/JSME 8TH THERMAL ENGINEERING JOINT CONFERENCE 2011, VOL 2, 2011, : 369 - +
  • [4] Generation of Large Volume Atmospheric Pressure Air Plasma
    Mohamed, Abdel-Aleam Hefney
    Al-Mashraqi, Ahmed Abdo
    Shariff, Samir M.
    Benghanem, Mohamed
    Basher, Abdulrahman H.
    Ouf, Salam A.
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2014, 42 (10) : 2488 - 2489
  • [5] Microwave generation of stable atmospheric-pressure fireballs in air
    Stephan, Karl D.
    PHYSICAL REVIEW E, 2006, 74 (05):
  • [6] A High Efficiency Microwave Atmospheric Pressure Air Plasma Jet
    Zhang, Xianyu
    Liu, Tao
    Zhang, Wencong
    Liu, Xian
    Tao, Junwu
    Wu, Li
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2024, 52 (04) : 1242 - 1246
  • [7] Microwave air plasma source at atmospheric pressure: Experiment and theory
    Tatarova, E.
    Dias, F. M.
    Felizardo, E.
    Henriques, J.
    Pinheiro, M. J.
    Ferreira, C. M.
    Gordiets, B.
    JOURNAL OF APPLIED PHYSICS, 2010, 108 (12)
  • [8] Microwave Generation in Atmospheric Air
    Kekez, Mladen M.
    IEEE TRANSACTIONS ON PLASMA SCIENCE, 2016, 44 (10) : 2331 - 2339
  • [9] Generation of Atmospheric Pressure Plasma by Repetitive Nanosecond Pulses in Air Using Water Electrodes
    Shao Tao
    Yu Yang
    Zhang Cheng
    Jiang Hui
    Yan Ping
    Zhou Yuanxiang
    PLASMA SCIENCE & TECHNOLOGY, 2011, 13 (06) : 735 - 739
  • [10] Generation of Atmospheric Pressure Plasma by Repetitive Nanosecond Pulses in Air Using Water Electrodes
    邵涛
    于洋
    章程
    姜慧
    严萍
    周远翔
    Plasma Science and Technology, 2011, 13 (06) : 735 - 739
12345