Title :
CPC power theory for analysis of Arc Furnaces
Author :
Martell, F. ; Izaguirre, A. ; Macias, M.
Author_Institution :
Tecnol. de Monterrey, Aguascalientes, Mexico
Abstract :
Electric Arc Furnaces (EAFs) are facilities with an intensive use of energy where small improvements in their control imply significant electrical energy savings. The electric arcs are highly nonlinear and chaotic; a power theory for non-sinusoidal voltages and currents is needed for the analysis of the EAF electrical parameters. The current and power decomposition proposed by Czarnecki in the Current´s Physicals Components (CPC) power theory allows an advanced engineering analysis of the energy transfer at the arc furnaces. Each one of the current components can be used to dynamically diagnose either the energy transfer or the heat process conditions. This solid and complete power theory can help to design power control algorithms to optimize the energy efficiency at arc furnaces.
Keywords :
arc furnaces; energy conservation; power control; CPC power theory; EAF; chaotic arcs; current decomposition; current physicals components; electric arc furnaces; electrical energy savings; energy transfer; heat process conditions; nonlinear arcs; nonsinusoidal currents; nonsinusoidal voltages; power control; power decomposition; Computational modeling; Energy exchange; Furnaces; Heating; Integrated circuits; Radio frequency; Electric Arc Furnace; Power Control;
Conference_Titel :
Nonsinusoidal Currents and Compensation (ISNCC), 2015 International School on
Conference_Location :
Lagow
DOI :
10.1109/ISNCC.2015.7174703
