TY - GEN
T1 - Thermal effects on carbon based electrodes close to a high current electric arc
AU - Palsson, H.
AU - Saevarsdottir, G. A.
AU - Jonsson, M. T.
AU - Bakken, J. A.
PY - 2007
Y1 - 2007
N2 - The electrodes of a Submerged Arc Furnaces carry a high current and are subject to enormous stresses caused by both the electric arc itself, and the current distribution within the electrode. The external effect of the arc on the electrode is treated in a different paper at this conference, The purpose of this paper is to analyze the thermal effects of ohmic heating within the electrode at the arc attachment on the carbon based electrode, using data for Søderberg electrodes. The thermal conditions are then used to examine stress conditions in the vicinity of an arc. Two types of models of an electrode are presented in the paper. The first type is an accurate finite element model, based on both two and three dimensional elements and the second type is an one dimensional model, providing better insight into the problem. For the second type, a spherical model of thermal conditions in a semi-infinite solid has been developed. Results show that the electrode surface is heated quickly up to a maximum temperature and for a specific test case, the surface can only withstand the load for about 10 seconds. Also, the thermal stresses on the surface are very high which will increase erosion on the surface in addition to normal evaporation.
AB - The electrodes of a Submerged Arc Furnaces carry a high current and are subject to enormous stresses caused by both the electric arc itself, and the current distribution within the electrode. The external effect of the arc on the electrode is treated in a different paper at this conference, The purpose of this paper is to analyze the thermal effects of ohmic heating within the electrode at the arc attachment on the carbon based electrode, using data for Søderberg electrodes. The thermal conditions are then used to examine stress conditions in the vicinity of an arc. Two types of models of an electrode are presented in the paper. The first type is an accurate finite element model, based on both two and three dimensional elements and the second type is an one dimensional model, providing better insight into the problem. For the second type, a spherical model of thermal conditions in a semi-infinite solid has been developed. Results show that the electrode surface is heated quickly up to a maximum temperature and for a specific test case, the surface can only withstand the load for about 10 seconds. Also, the thermal stresses on the surface are very high which will increase erosion on the surface in addition to normal evaporation.
UR - http://www.scopus.com/inward/record.url?scp=84857726696&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84857726696
SN - 9780230630697
T3 - Innovations In The Ferro Alloy Industry - Proceedings of the XI International Conference on Innovations in the Ferro Alloy Industry, Infacon XI
SP - 695
EP - 702
BT - Innovations In The Ferro Alloy Industry - Proceedings of the XI International Conference on Innovations in the Ferro Alloy Industry, Infacon XI
T2 - 11th International Conference on Innovations in the Ferro Alloy Industry, Infacon XI
Y2 - 18 February 2007 through 21 February 2007
ER -