Publication detail

Utilisation of the high speed camera for the pin-hole discharge diagnostics

KOZÁKOVÁ, Z. KRČMA, F. DŘÍMALKOVÁ, L. HLOCHOVÁ, L.

Original Title

Utilisation of the high speed camera for the pin-hole discharge diagnostics

English Title

Utilisation of the high speed camera for the pin-hole discharge diagnostics

Type

journal article in Scopus

Language

en

Original Abstract

The high speed camera was utilised for plasma diagnostics of the DC pin-hole discharge in electrolyte solutions. Two discharge modes were determined. Plasma channels were observed either in the bubble or outside the bubble in the bulk solution, which confirms both thermal and electron theory of the discharge ignition in liquid. In the diaphragm discharge, plasma streamers were better visible on the cathode side of the dielectric barrier because they formed significantly longer channels.

English abstract

The high speed camera was utilised for plasma diagnostics of the DC pin-hole discharge in electrolyte solutions. Two discharge modes were determined. Plasma channels were observed either in the bubble or outside the bubble in the bulk solution, which confirms both thermal and electron theory of the discharge ignition in liquid. In the diaphragm discharge, plasma streamers were better visible on the cathode side of the dielectric barrier because they formed significantly longer channels.

Keywords

discharge in liquid, pin-hole discharge, high speed camera, plasma diagnostics

Released

01.06.2017

Location

Praha

Pages from

20

Pages to

23

Pages count

4

BibTex


@article{BUT142063,
  author="Zdenka {Kozáková} and František {Krčma} and Lucie {Dřímalková} and Lenka {Holíková}",
  title="Utilisation of the high speed camera for the pin-hole discharge diagnostics",
  annote="The high speed camera was utilised for plasma diagnostics of the DC pin-hole discharge in electrolyte solutions. Two discharge modes were determined. Plasma channels were observed either in the bubble or outside the bubble in the bulk solution, which confirms both thermal and electron theory of the discharge ignition in liquid. In the diaphragm discharge, plasma streamers were better visible on the cathode side of the dielectric barrier because they formed significantly longer channels.",
  booktitle="XXII FSO - Book of Abstracts",
  chapter="142063",
  doi="10.14311/ppt.2017.1.20",
  howpublished="print",
  number="1",
  volume="4",
  year="2017",
  month="june",
  pages="20--23",
  type="journal article in Scopus"
}