Publication detail
Visualization of flow and temperature field of electric arc plasma stabilized by water
ŘEDINA, J. PEŠKA, L. GROSS, B. GILAR, M. HRABOVSKÝ, M. KONRÁD, M.
Czech title
Vizualizace proudového a teplotního pole v elektrickém oblouku s vodní stabilizací
English title
Visualization of flow and temperature field of electric arc plasma stabilized by water
Type
conference paper
Language
en
Original abstract
This paper deals with the application of the Schlieren method enabling the study of the plasma flow in the immediate vicinity of the plasma jet nozzle environment. It gives also the description of the plasma jet where the electic arc plasma stabilized by water originates and possibility of its application.
Czech abstract
This paper deals with the application of the Schlieren method enabling the study of the plasma flow in the immediate vicinity of the plasma jet nozzle environment. It gives also the description of the plasma jet where the electic arc plasma stabilized by water originates and possibility of its application.
English abstract
This paper deals with the application of the Schlieren method enabling the study of the plasma flow in the immediate vicinity of the plasma jet nozzle environment. It gives also the description of the plasma jet where the electic arc plasma stabilized by water originates and possibility of its application.
Keywords in English
Schlieren method, plasma jet, electric arc, stabilized plasma
RIV year
2004
Released
21.09.1998
Publisher
TU Ilmenau, Germany
Location
TU Ilmenau, Ilmenau, Germany
ISBN
0943-7207
Book
43. Int. Wissensch. Kolloquim, Band 1
Pages count
5
BIBTEX
@inproceedings{BUT6714,
author="Jiří {Ředina} and Ladislav {Peška} and Boleslav {Gross} and Martin {Gilar} and Milan {Hrabovský} and Miloš {Konrád},
title="Visualization of flow and temperature field of electric arc plasma stabilized by water",
booktitle="43. Int. Wissensch. Kolloquim, Band 1",
year="1998",
month="September",
publisher="TU Ilmenau, Germany",
address="TU Ilmenau, Ilmenau, Germany",
isbn="0943-7207"
}