Detail publikace

The Study of the DC Diafragm Discharge in Liquids

STARÁ, Z., RAŠKOVÁ, Z., KRČMA, F.

Originální název

The Study of the DC Diafragm Discharge in Liquids

Anglický název

The Study of the DC Diafragm Discharge in Liquids

Jazyk

en

Originální abstrakt

DC diaphragm discharge in liquids is the subject of this work. The batch discharge reactor and DC HV source were used in experiments. The influence of discharge conditions (applied voltage, initial conductivity of the liquid, a type of salt in water solution) on the generation of the hydrogen peroxide by the corona like discharge was investigated. Concentration of H2O2 was determined by a colorimetric method. The optical emission spectroscopy was used for in situ study the discharge. The dependence of the light intensity of hydroxyl radicals and some chosen elements on the discharge conditions was examined.

Anglický abstrakt

DC diaphragm discharge in liquids is the subject of this work. The batch discharge reactor and DC HV source were used in experiments. The influence of discharge conditions (applied voltage, initial conductivity of the liquid, a type of salt in water solution) on the generation of the hydrogen peroxide by the corona like discharge was investigated. Concentration of H2O2 was determined by a colorimetric method. The optical emission spectroscopy was used for in situ study the discharge. The dependence of the light intensity of hydroxyl radicals and some chosen elements on the discharge conditions was examined.

Dokumenty

BibTex


@inproceedings{BUT8826,
  author="Zdenka {Kozáková} and Zuzana {Rašková} and František {Krčma}",
  title="The Study of the DC Diafragm Discharge in Liquids",
  annote="DC diaphragm discharge in liquids is the subject of this work. The batch discharge reactor and DC HV source were used in experiments. The influence of discharge conditions (applied voltage, initial conductivity of the liquid, a type of salt in water solution) on the generation of the hydrogen peroxide by the corona like discharge was investigated. Concentration of H2O2 was determined by a colorimetric method. The optical emission spectroscopy was used for in situ study the discharge. The dependence of the light intensity of hydroxyl radicals and some chosen elements on the discharge conditions was examined.",
  address="Universita Bari",
  booktitle="Proceedings of Frontiers in Low Temperature Plasma Diagnostics V",
  chapter="8826",
  institution="Universita Bari",
  year="2003",
  month="april",
  pages="251",
  publisher="Universita Bari",
  type="conference paper"
}