Publication detail

Pin-hole based discharges in liquids: Generation, properties and applications

KRČMA, F. KOZÁKOVÁ, Z.

Original Title

Pin-hole based discharges in liquids: Generation, properties and applications

English Title

Pin-hole based discharges in liquids: Generation, properties and applications

Type

conference paper

Language

en

Original Abstract

The pin-hole based electrical discharges in various liquids are studied in dependence on supplied voltage polarity and frequency as well as on solution conductivity. The discharge breakdown and its propagation through bulk liquid are studied as well as the physical and chemical phenomena initiated by discharge. The applications in decomposition of hazardous chemical compounds, synthesis of nanoparticles and surface treatment of materials are described, too.

English abstract

The pin-hole based electrical discharges in various liquids are studied in dependence on supplied voltage polarity and frequency as well as on solution conductivity. The discharge breakdown and its propagation through bulk liquid are studied as well as the physical and chemical phenomena initiated by discharge. The applications in decomposition of hazardous chemical compounds, synthesis of nanoparticles and surface treatment of materials are described, too.

Keywords

discharge in water solutions; fast camera visualization; discharge operation; discharge diagnostics; electron concentration; hydrogen peroxide, decomposition of hazardous compounds, surface treatment, nanoparticle synthesis

Released

17.09.2018

Publisher

Stepanov Institute of Physics

Location

Minsk

ISBN

978-985-7202-78-2

Book

IX International Conference Plasma Physics and Plasma Technology - Contributed papers

Pages from

153

Pages to

156

Pages count

4

BibTex


@inproceedings{BUT149212,
  author="František {Krčma} and Zdenka {Kozáková}",
  title="Pin-hole based discharges in liquids: Generation, properties and applications",
  annote="The pin-hole based electrical discharges in various liquids are studied in dependence on supplied voltage polarity and frequency as well as on solution conductivity. The discharge breakdown and its propagation through bulk liquid are studied as well as the physical and chemical phenomena initiated by discharge. The applications in decomposition of hazardous chemical compounds, synthesis of nanoparticles and surface treatment of materials are described, too.",
  address="Stepanov Institute of Physics",
  booktitle="IX International Conference Plasma Physics and Plasma Technology - Contributed papers",
  chapter="149212",
  howpublished="print",
  institution="Stepanov Institute of Physics",
  year="2018",
  month="september",
  pages="153--156",
  publisher="Stepanov Institute of Physics",
  type="conference paper"
}