THE DYNAMIC MODEL OF AN ARC FURNACE IN MATLAB (SIMULINK)


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Abstract

The article shows that for creation of electric arc model it is appropriate to use the methods of investigation of electric arc with changing its parameters through time. The comparison of four different models of volt-ampere characteristic of the AC arc in the arc steel furnace showed that three of these four models did not allow obtaining a consistent range of higher harmonics of current and voltage generated by electric arc furnaces. They do not display the inertia of thermal processes during the arc ignition and extinction as a result of which the curves of current and arc voltage in these models differ from the actual furnace arcs oscillograms. To compare the results of the arc voltage-current characteristics modeling against each other and with the results of experimental studies, the model of one phase of electric power supply system with electric arc steel furnace was created in Matlab (Simulink). While calculating the higher harmonics of current and voltage, the equivalent circuit parameters of a furnace transformer and a low-voltage circuit for a DSP-100NZA furnace with a furnace transformer capacity of 50 MVA were used. The authors obtained the diagrams of arc voltage, the voltage on low voltage buses of furnace transformer and the arc current for each model of volt-ampere characteristic. The research showed that more coincidences of the results of harmonic analysis of currents and voltages with experimental data is observed for the VAC model, which takes into account the inertia of thermal processes in the arc and the electrodes.

About the authors

Aleksey Nikolaevich Chernenko

Togliatti State University, Togliatti

Author for correspondence.
Email: tchernenko83@yandex.ru

candidate of technical sciences, assistant professor of the Department of power supply and electrical engineering

Russian Federation

Vera Vasilievna Vakhnina

Togliatti State University, Togliatti

Email: VVVahnina@yandex.ru

Doctor of Engineering, Professor, Head of the Department of power supply and electrical engineering

Russian Federation

Svetlana Gennadyevna Martynova

Togliatti State University, Togliatti

Email: EiE@tltsu.ru

undergraduate student of the Department of power supply and electrical engineering

Russian Federation

References

  1. Ting W., Wennan S., Yao Z. A New Frequency Domain Method for the Harmonic Analysis of power system with Arc Furnace. 4th international conference on advances in power system control, 1997, pp. 552–555.
  2. Ozgun O., Abur A. Development of an Arc Furnace Model for Power Quality Studies. Power Engineering Society Summer Meeting, 1999, no. 1, pp. 507–511.
  3. Svenchansky A.D., Tsukanov V.V. Arc model in the calculation of dynamic processes in the EAF circuits. Matematicheskoe modelirovanie i raschet dugovikh i plazmennikh staleplavilnikh pechey. Moscow, VNIIETO publ., pp. 41–44.
  4. Chernenko A.N. Razrabotka metodiki rascheta visshikh garmonik toka i napryazheniya dugovikh elektropechey v tochke obshchego prisoedineniya. Diss. kand. tehn. nauk [Development of methods for calculation of higher current and voltage harmonics of electric arc furnaces at the point of common coupling]. Tolyatty, 2011, 145 p.
  5. Mironov Yu.M. Teoreticheskaya elektrotekhnika elektricheskikh elektrodnikh pechey [Fundamental electrical engineering of electrical rod ovens]. Cheboksari, Chuvashsky universitet publ., 1997, 232 p.
  6. Montanari G., Loggini M., Pitti L., Tironi E. The Effects of Series Inductors for Flicker Reduction in Electric Power System Supplying Arc Furnaces. Industry Applications Society Annual Meeting, 1993, no. 2, pp. 1496–1503.
  7. Blazic B., Papic I. Analysis of flicker mitigation in utility distribution network. EUROCON 2003, 2003, no. 2, pp. 292–296.
  8. Zheng T., Makram E., Girgis A. Effect of Different Arc Furnace Models on Voltage Distortion. Harmonics And Quality of Power, 1998, no. 2, pp. 1079–1085.
  9. Sharmeela С., Uma G., Mohan M.R., Karthikeyan K. Voltage Flicker Analysis and Mitigation Case Study in ac Electric Arc Furnace Using PSCAD/EMTDC. International conference on power system technology, 2004, no. 1, pp. 707–712.
  10. Zheng T., Makram E. An Adaptive Arc Furnace Model. IEEE Transaction on power delivery, 2000, no. 15, pp. 931–939.
  11. Chernenko A.N. A generalized model furnace and the welding are. Vektor nauki Tolyattinskogo gosudarstvennogo universiteta, 2011, no. 3, pp. 68–70.
  12. Rubtsov V.P., Elizarov V.A. Analysis of harmonic composition of phase current curves for evaluation of power distribution in the crucible of electric ore smelting furnace. Elektrometallurgiya, 2011, no. 3, pp. 11–19.
  13. Dantsiss Ya.B., Zhilov G.M., eds. Korotkie seti i elektricheskie parametric dugovikh elektropechey [Low-voltage circuits and electrical parameters of electric arc furnaces]. 2nd ed. Moscow, Metallurgiya publ., 1987, 320 p.
  14. Mineev R.V., Mikheev A.P., Ryzhnev Yu.L. Povishenie effektivnosti elektrosnabzheniya elektropechey [Improvement of the efficiency of electrical furnaces electric power supply]. Moscow, Energoatomizdat publ., 1986, 208 p.
  15. Smelyansky M.Ya., Mineev R.V., eds. Vliyanie dugovikh elektropechey na sistemi elektrosnabzheniya [Electric arc furnaces influence on the power supply systems]. Moscow, Energiya publ., 1975, 184 p с.
  16. Vakhnina V.V. Razrabotka dinamicheskikh modeley dugovikh staleplavilnikh pechey i ikh elektromagnitnoy sovmestimosti s sistemoy elektrosnabzheniya po nesinusoidalnosti napryazheniya. Diss. kand. tehn. nauk [Development of dynamic models of the arc steel furnaces and their electromagnetic compatibility with the power supply system according to the voltage nonsinusoidality]. Nizhniy Novgorod, 2000, 211 p.
  17. Svenchansky A.D., Tsukanov V.V. Arc model in the calculation of dynamic processes in the EAF circuits. Matematicheskoe modelirovanie i raschet dugovikh i plazmennikh staleplavilnikh pechey. Moscow, VNIIETO publ., pp. 41–44.
  18. Tsukanov V.V. Issledovanie dinamicheskikh rezhimov v elektricheskikh tsepyakh dugovikh staleplavilnikh pechey i ikh vozdeystvie na kachestvo elektricheskoy energii. Diss. kand. tehn. nauk [Research of the dynamic modes in electric circuits of the arc steel furnaces and their influence on the electric power quality]. Moscow, 1979, 239 p.
  19. Zhezhelenko I.V. Visshie garmoniki v sistemakh elektrosnabzheniya prompredpriyatiy [Higher harmonics in electric power supply systems of production enterprises]. 5th ed. Moscow, Energoatomizdat publ., 2004, 358 p.
  20. GOST 32144-2013. Electric power. Electromagnetic compatibility of technical equipment. Quality standard for electric power in general-purpose electric power supply systems. Moscow, Standartinform publ., 2014. 19 p. (In Russian).

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