Numerical thermal simulation of graphite electrode in EAF during normal operation

AbstractWorking temperature has a crucial effect on the consumption of graphite electrodes in electric arc furnaces (EAFs). In this work, temperature distribution within the EAF electrodes during normal operation was simulated using the finite element method in both 2D and 3D scales. The contributions of electrical current passing the electrode, thermal effects of the furnace sidewall refractory, slag layer, a titanium based coating as a protective layer, and the process parameters such as water spraying at the end of the electrodes were investigated. The proximity effect of the graphite electrodes in EAF was analysed using a 3D thermal model. The numerical model was validated against experimental measurements of temperature distribution over the electrode surface as well as the published results in literature. The results showed a relatively deep temperature gradient at the electrode tip. Among the environmental and processing parameters affecting the temperature distribution of the electrode, the heat t...