Open AccessExponential-Hyperbolic Model for Actual Operating Conditions of Three Phase Arc Furnaces
Author(s) -
Mahdi Banejad,
RahmatAllah Hooshmand,
Mehdi Torabian Esfahani
Publication year - 2009
Publication title -
american journal of applied sciences
Language(s) - English
Resource type - Journals
eISSN - 1554-3641
pISSN - 1546-9239
DOI - 10.3844/ajassp.2009.1539.1547
Subject(s) - electric arc furnace , engineering , exponential function , power (physics) , electric arc , arc (geometry) , phase (matter) , control theory (sociology) , mechanical engineering , computer science , mathematics , electrode , metallurgy , mathematical analysis , physics , quantum mechanics , chemistry , materials science , control (management) , organic chemistry , artificial intelligence
Problem statement: The Electric Arc Furnace (EAF) is a non-linear load and creates power quality related problem. Therefore, accurate modeling of the EAF is essential. Approach: In this study, an optimal model for EAF in time domain called exponential-hyperbolic, was proposed to describe the behavior of the EAF for all of the operating conditions and it does not need the initial conditions as they needed for the existing methods of modeling of the EAF. Then, the behavior of the proposed model of EAF on the power system was studied using the PSCAD software. In order to analyze the proposed method, several characteristics for different operating conditions were investigated. Results: In the simulation, the parameters were taken from the EAF of the Mobarakeh Steel Making Company (Isfahan-Iran). The results of the simulation accurately showed the behavior of the EAF of the company. Conclusion: The finding of this study showed that the proposed exponential-hyperbolic model was capable in modeling of EAF for different operating conditions