Detail publikace

# Analysis of Intensively Blasted Electric Arc Burning in the Arc Heater's Anode Channel

Originální název

Analysis of Intensively Blasted Electric Arc Burning in the Arc Heater's Anode Channel

Anglický název

Analysis of Intensively Blasted Electric Arc Burning in the Arc Heater's Anode Channel

Jazyk

en

Originální abstrakt

The paper deals with the description of the intensively blasted electric arc burning in Ar in the anode channel of the arc heater operated under various conditions. Directly measured experimental data (current, voltage, gas flow rate, power loss) characterize the operation of the device as a whole but important parameters describing the electric arc inside (its geometry, temperature and voltage distribution) must be revealed using a mathematical model of the arc. An updated version of the model is introduced and used for analysis of two exemplary sets of measured data. The results are given in figures and commented.

Anglický abstrakt

The paper deals with the description of the intensively blasted electric arc burning in Ar in the anode channel of the arc heater operated under various conditions. Directly measured experimental data (current, voltage, gas flow rate, power loss) characterize the operation of the device as a whole but important parameters describing the electric arc inside (its geometry, temperature and voltage distribution) must be revealed using a mathematical model of the arc. An updated version of the model is introduced and used for analysis of two exemplary sets of measured data. The results are given in figures and commented.

BibTex

``````
@article{BUT128030,
author="Ivana {Jakubová} and Josef {Šenk} and Ilona {Lázničková}",
title="Analysis of Intensively Blasted Electric Arc Burning in the Arc Heater's Anode Channel",
annote="The paper deals with the description of the intensively blasted electric arc burning in Ar in the anode channel of the arc heater operated under various conditions. Directly measured experimental data (current, voltage, gas  flow rate, power loss) characterize the operation of the device as a whole but important parameters describing the electric arc inside (its geometry, temperature and voltage distribution) must be revealed using a mathematical model of the arc. An updated version of the model is introduced and used for analysis of two exemplary sets of measured data. The results are given in figures and commented.",