acería
Agradecemos también la valiosa colaboración del personal de
Tamsa durante las pruebas experimentales y para la evaluación
de los resultados operativos: Héctor Quintanilla, Eduardo Guzmán, Héctor Velasco, Mario Palma, Arnulfo Hernández y Luis
Vázquez.
Referencias.
1. B. Bowman and K. Krüger, “Arc Furnace Physics”, Verlag Stahleisen, Düsseldorf, 2009.
2. Y. Toulouevski and I. Ziburov, “Innovation in Electric Arc Furnaces”, Springer-Verlag Berlín, 2009.
3. F. Martell, A. Deschamps, R. Mendoza, M. Meléndez, A. Llamas and O. Micheloud, Virtual Neutral to Ground Voltage
as Stability Index for Electric Arc Furnaces”, ISIJ International,
Vol. 51, No. 11, (20 1), pp. 1846.
4. B. Dittmer and K. Krüger, “Theoretical approach to modeling
thermal radiation in electric arc furnaces”, Electro-Heat International, Vol. 4, (2009), pp. 195.
12 HIERRO yACERO/AIST MÉXICO
5. J. Alexis, M. Ramirez-Argaez and G. Trapaga, “Modeling of a
DC Electric Arc Furnace – Heat Transfer from the DC Arc”,
ISIJ International, Vol. 40, No. 11, (2000), pp. 1089.
6. J. Sanchez, M. Ramirez-Argaez and A. Conejo, “Power Delivery from the Arc in AC Arc Furnaces with Different Gas
Atmospheres”, Steel Research International, Vol. 80, No. 2,
(2009), pp. 113.
7. T.E. Miller, “Reactive Power Control in Electric Systems”, Wiley, Hoboken, NJ, 1982.
8. F. Martell, R. Mendoza, A. Llamas and O. Micheloud, “Increasing Energy Efficiency of the Electric Arc Furnace at Tenaris
Tamsa”, Annual Conference of the Association of Iron and
Steel Technology (AISTech) 2012, Atlanta, USA, pp. 793.
9. F. Martell, “Energy Efficient Power Control of Alternate Current Electric Arc Furnaces”, Disertación Doctoral, Tecnológico de Monterrey, México, 2012.