Detail publikace
Diagnostics of Underwater Discharges in Electrolytes
KOZÁKOVÁ, Z. HLAVATÁ, L. HLOCHOVÁ, L. KRČMA, F. NĚMCOVÁ, L.
Originální název
Diagnostics of Underwater Discharges in Electrolytes
Anglický název
Diagnostics of Underwater Discharges in Electrolytes
Jazyk
en
Originální abstrakt
Electric discharge generated in electrolyte solutions by DC or AC high voltage is investigated. Plasma reactors use a pin-hole configuration of the discharge. Time resolved characteristics of voltage, current, sound, and emitted light revealed processes of bubble formation and discharge breakdown. ICCD images confirm thermal and electron theories of the discharge generation in water solutions. Optical emission spectroscopy determines formation of hydroxyl radicals, hydrogen and oxygen atoms as well as emission of sodium atoms from the dissolved electrolyte.
Anglický abstrakt
Electric discharge generated in electrolyte solutions by DC or AC high voltage is investigated. Plasma reactors use a pin-hole configuration of the discharge. Time resolved characteristics of voltage, current, sound, and emitted light revealed processes of bubble formation and discharge breakdown. ICCD images confirm thermal and electron theories of the discharge generation in water solutions. Optical emission spectroscopy determines formation of hydroxyl radicals, hydrogen and oxygen atoms as well as emission of sodium atoms from the dissolved electrolyte.
Dokumenty
BibTex
@inproceedings{BUT73711,
author="Zdenka {Kozáková} and Lucie {Dřímalková} and Lenka {Holíková} and František {Krčma} and Lucie {Němcová}",
title="Diagnostics of Underwater Discharges in Electrolytes",
annote="Electric discharge generated in electrolyte solutions by DC or AC high voltage is investigated. Plasma reactors use a pin-hole configuration of the discharge. Time resolved characteristics of voltage, current, sound, and emitted light revealed processes of bubble formation and discharge breakdown. ICCD images confirm thermal and electron theories of the discharge generation in water solutions. Optical emission spectroscopy determines formation of hydroxyl radicals, hydrogen and oxygen atoms as well as emission of sodium atoms from the dissolved electrolyte.",
booktitle="Proceedings of XIX Symposium on Physics of Switching Arc",
chapter="73711",
howpublished="print",
year="2011",
month="september",
pages="255--258",
type="conference paper"
}