Detail publikace
Diaphragm Discharge Ignition Supplied by DC Non-Pulsing Voltage in Electrolyte Solutions with Different Conductivities
Originální název
Diaphragm Discharge Ignition Supplied by DC Non-Pulsing Voltage in Electrolyte Solutions with Different Conductivities
Anglický název
Diaphragm Discharge Ignition Supplied by DC Non-Pulsing Voltage in Electrolyte Solutions with Different Conductivities
Jazyk
en
Originální abstrakt
The ignition of diaphragm discharge in water solutions is studied in dependence of the solution conductivity. The DC non pulsing high voltage is used for the discharge creation. The voltage needed for the generation of bubbles as well as discharge breakdown voltage decrease with the increase of the solution conductivity. Both these parameters directly proportionally incease with the barriere thickness.
Anglický abstrakt
The ignition of diaphragm discharge in water solutions is studied in dependence of the solution conductivity. The DC non pulsing high voltage is used for the discharge creation. The voltage needed for the generation of bubbles as well as discharge breakdown voltage decrease with the increase of the solution conductivity. Both these parameters directly proportionally incease with the barriere thickness.
BibTex
@misc{BUT101794,
author="Lenka {Holíková} and Michal {Vašíček} and Zdenka {Kozáková} and František {Krčma}",
title="Diaphragm Discharge Ignition Supplied by DC Non-Pulsing Voltage in Electrolyte Solutions with Different Conductivities",
annote="The ignition of diaphragm discharge in water solutions is studied in dependence of the solution conductivity. The DC non pulsing high voltage is used for the discharge creation. The voltage needed for the generation of bubbles as well as discharge breakdown voltage decrease with the increase of the solution conductivity. Both these parameters directly proportionally incease with the barriere thickness.",
address="Eindhoven University",
booktitle="10th Frontiers in Low Temperature Plasma Diagnostics – Book of Abstracts",
chapter="101794",
howpublished="print",
institution="Eindhoven University",
year="2013",
month="april",
pages="P1-18--P1-18",
publisher="Eindhoven University",
type="abstract"
}