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ŠENK, J. LÁZNIČKOVÁ, I. JAKUBOVÁ, I. COUFAL, O.
Original Title
Application of the Designed Model of the Blasted Electric Arc under Various Argon Flow Rate
Type
conference paper
Language
English
Original Abstract
The designed mathematical model of the intensively blasted electric arc burning inside the arc heater anode channel is based on the energy and mass conservation laws and Ohm’s law. With the aim of decreasing the computational burden and making the model easy to understand for students, simplifying presumptions are included. Validity of them could be impaired when the model is applied with experimental data obtained under very different operational conditions. Thus, verification of the model should be made with the data measured in a wide range of gas flow rate, input power, radius and length of the anode channel, etc. In this contribution, attention is focused on the influence of the working gas flow rate, which is crucial for cooling and stabilization of the arc. Axial distributions of the arc temperature, radius and potential drop are computed for two argon flow rates differing by 100 percent, with other operational conditions unchanged. The results are illustrated in figures and discussed.
Keywords
electric arc; argon; flow rate; modelling; measurement
Authors
ŠENK, J.; LÁZNIČKOVÁ, I.; JAKUBOVÁ, I.; COUFAL, O.
Released
15. 5. 2019
Publisher
VSB-Technical University of Ostrava, CR
Location
Ostrava, CR
ISBN
978-1-7281-1333-3
Book
Proceedings of the 2019 20th International Scientific Conference on Electric Power Engineering (EPE)
Pages from
1
Pages to
6
Pages count
BibTex
@inproceedings{BUT157024, author="Josef {Šenk} and Ilona {Lázničková} and Ivana {Jakubová} and Oldřich {Coufal}", title="Application of the Designed Model of the Blasted Electric Arc under Various Argon Flow Rate", booktitle="Proceedings of the 2019 20th International Scientific Conference on Electric Power Engineering (EPE)", year="2019", pages="1--6", publisher="VSB-Technical University of Ostrava, CR", address="Ostrava, CR", doi="10.1109/EPE.2019.8778030", isbn="978-1-7281-1333-3" }