Time resolved study of ignition of microwave discharge in liquid hydrocarbons

被引:7
|
作者
Lebedev, Yuri A. [1 ]
Krashevskaya, Galina V. [1 ,2 ]
Batukaev, Timur S. [1 ]
Mikhaylyuk, Andrey V. [2 ]
机构
[1] Topchiev Inst Petrochem Russian Acad Sci TIPS RAS, Lab Plasma Chem & Phys Chem Pulse Process, Leninsky Ave 29, Moscow 119991, Russia
[2] Natl Res Nucl Univ MEPhI, LAPLAZ, Moscow, Russia
来源
PLASMA PROCESSES AND POLYMERS | 2022年 / 19卷 / 05期
关键词
discharge in liquids; microwave discharge; optical diagnostics; Schlieren method; shadow photographs; shock waves; sound oscillations; N-HEPTANE; GENERATION; BREAKDOWN; PLASMA;
D O I
10.1002/ppap.202100215
中图分类号
O59 [应用物理学];
学科分类号
摘要
Results of the study of acoustic phenomena and changes in the structure of the microwave (2.45 GHz) discharge in liquid hydrocarbons in time are presented. Discharge was ignited at the tip of microwave antennas with conical or rounded ends. Petroleum solvent Nefras was chosen as representative of liquid hydrocarbons. Electret microphone and high-speed video cameras were used to study the discharge. It is shown that the discharge is always attached to the top of the cone in the case of the conical end of the antenna whereas ignition of the discharge generates in the gas part of the reactor a set of acoustic oscillations with frequencies corresponding to the characteristic oscillations of the reactor.
引用
收藏
页数:11
相关论文
共 50 条
  • [1] Time-Resolved Optical Diagnostics of the Microwave Discharge in Liquid Hydrocarbons with Argon Bubbling
    Batukaev, T. S.
    Krashevskaya, G. V.
    Lebedev, Yu. A.
    Mikhailyuk, A. V.
    PLASMA PHYSICS REPORTS, 2022, 48 (04) : 391 - 394
  • [2] Time-Resolved Optical Diagnostics of the Microwave Discharge in Liquid Hydrocarbons with Argon Bubbling
    T. S. Batukaev
    G. V. Krashevskaya
    Yu. A. Lebedev
    A. V. Mikhailyuk
    Plasma Physics Reports, 2022, 48 : 391 - 394
  • [3] Microwave discharge in liquid hydrocarbons
    Lebedev, Yu. A.
    Averin, K. A.
    Tatarinov, A. V.
    Epstein, I. L.
    10TH INTERNATIONAL WORKSHOP 2017 STRONG MICROWAVES AND TERAHERTZ WAVES: SOURCES AND APPLICATIONS, 2017, 149
  • [4] Microwave Discharge in Liquid Hydrocarbons: Study of a Liquid Hydrocarbon after Exciting the Discharge
    Lebedev, Yu. A.
    Averin, K. A.
    Borisov, R. S.
    Garifullin, A. R.
    Bobkova, E. S.
    Kurkin, T. S.
    HIGH ENERGY CHEMISTRY, 2018, 52 (04) : 324 - 329
  • [5] Microwave Discharge in Liquid Hydrocarbons: Study of a Liquid Hydrocarbon after Exciting the Discharge
    Yu. A. Lebedev
    K. A. Averin
    R. S. Borisov
    A. R. Garifullin
    E. S. Bobkova
    T. S. Kurkin
    High Energy Chemistry, 2018, 52 : 324 - 329
  • [6] Microwave Discharge in Liquid Hydrocarbons: Study of a Liquid Hydrocarbon after Its Discharge Treatment Including Air Bubbling
    Averin, K. A.
    Borisov, R. S.
    Lebedev, Yu A.
    HIGH ENERGY CHEMISTRY, 2020, 54 (03) : 210 - 216
  • [7] Microwave Discharge in Liquid Hydrocarbons: Study of a Liquid Hydrocarbon after Its Discharge Treatment Including Air Bubbling
    K. A. Averin
    R. S. Borisov
    Yu. A. Lebedev
    High Energy Chemistry, 2020, 54 : 210 - 216
  • [8] Optical emission spectra of microwave discharge in different liquid hydrocarbons
    Lebedev, Yuri A.
    Shakhatov, Viatcheslav A.
    PLASMA PROCESSES AND POLYMERS, 2020, 17 (08)
  • [9] Main Gaseous Products of Microwave Discharge in Various Liquid Hydrocarbons
    Averin, K. A.
    Lebedev, Yu. A.
    Tatarinov, A. V.
    HIGH ENERGY CHEMISTRY, 2019, 53 (04) : 331 - 335
  • [10] Main Gaseous Products of Microwave Discharge in Various Liquid Hydrocarbons
    K. A. Averin
    Yu. A. Lebedev
    A. V. Tatarinov
    High Energy Chemistry, 2019, 53 : 331 - 335
12345