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JOURNALS // Teplofizika vysokikh temperatur // Archive

TVT, 2019 Volume 57, Issue 3, Pages 328–337 (Mi tvt11072)

This article is cited in 5 papers

Plasma Investigations

Mechanisms of the formation of an electric arc of a helical shape in an external axial magnetic field

R. M. Urusov, I. R. Urusova

Institute of Physical-Technical Problems and Materials Science, National Academy of Sciences of Kyrgyz Republic, Bishkek, Kyrgyzstan

Abstract: A numerical simulation of an open direct-current arc in an external uniform axial magnetic field is performed. A circuit analog of fluctuations of the temperature of electrons is used for the numerical implementation of the open electric arc column of a helical shape. It randomly generates asymmetry in the temperature distribution of electrons and, consequently, other plasma characteristics. It is shown that the formation of the arc column of a helical shape is due to the asymmetric influence of the Ampere force, which shifts the cross sections of the arc relative to the central discharge axis. Furthermore, the cross sections of the arc rotate around the central axis at different speeds. The rotational speed at the initial part from the side of the cathode decreases downstream and increases upon approaching the anode. Such a character of the convective heat transfer causes the formation of a helical arc. If the direction of the external axial magnetic field coincides with the direction of the electric current, then the spatial orientation of the helical arc as a whole is righthanded. Otherwise, there is a left-handed structure of the arc column. The directions of rotation of the arc sections at the cathode and anode sides are opposite each other. A helical shape of the open arc is not constant in time and is periodically destroyed. Two modes of destruction were revealed: first, as a result of bridging the spiral of the helix and, second, as a result of the transformation of several spirals into one. Apparently, an open arc cannot maintain a stable and constant helical shape in an external axial magnetic field.

UDC: 537.527

Received: 13.06.2018
Revised: 31.08.2018
Accepted: 10.10.2018

DOI: 10.1134/S0040364419020236


 English version:
High Temperature, 2019, 57:3, 298–307

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