Open AccessNumerical Investigation, Including Experimental Validation, of an Axially Blown, Stable Arc in Argon
Author(s) -
Bernardo Galletti,
Frank Kassubek,
Marcelo Buffoni,
J. Carstensen,
Patrick Stoller
Publication year - 2019
Publication title -
plasma physics and technology
Language(s) - English
Resource type - Journals
eISSN - 2336-2634
pISSN - 2336-2626
DOI - 10.14311/ppt.2019.1.78
Subject(s) - argon , arc (geometry) , axial symmetry , computational fluid dynamics , radiative transfer , absorption (acoustics) , mechanics , materials science , computational physics , physics , atomic physics , optics , mathematics , geometry , quantum mechanics
In this work we present the outcome of a numerical validation study conducted with an arc model developed within a computational fluid dynamics (CFD) tool. The numerical investigations were aimed at reproducing the spatially resolved temperature data obtained with an experiment in which an axially symmetric argon arc was established in the observation region. The full absorption spectrum has been computed for argon and then compressed with minimum loss of information to a relatively small set of bands. The latter has been used for solving the radiative transfer equation in a computationally affordable, yet accurate way. The comparison between the arc temperature simulated with the reduced absorption data and the measured one is presented.