THE INFLUENCE OF OPERATING MODES OF 6DSP-40 ARC STEEL-MAKING FURNACE ON THE LEVEL OF HARMONIC VOLTAGE COMPONENTS AT THE ELECTRICAL NETWORK CONNECTION POINT


Cite item

Full Text

Abstract

The article gives the results of experimental studies on the influence of 6DSP-40 arc steel-making furnace on the distortion of a voltage sine wave at the connection point of the furnace to the mains. The authors give the detailed description of the process of metal melting and electric mode kept during the melting process. The determination of the number of voltage harmonic components was carried out by the AR.5M analyzer of electric power quantity and quality produced by Spanish firm «Circutor». The authors considered the influence of the arc steel-making furnace (ASF) mode on the value of total voltage harmonic components at the point of connection of the ASF to the mains. The article presents the results of experimental investigations of harmonic voltage at the 10 kV busbars of MSDS feeding 6DSP-40 with the capacity of 15 MVA at Sk = 282 MVA. The experiment showed that the total of harmonic voltage components reaches the maximum values during the process of wells melt-through. The authors carried out the inspection of conformance of the voltage harmonic components and the total voltage harmonic components to the GOST 32144-2013 standard. The inspection was carried out using the PowerVision software delivered with the   electro-analyzer. It is found that the excess of limit values (c. 4.2.4.1 of GOST 32144-2013 standard, enumeration b) occurs on twenty of twenty nine harmonic components where the measurements were carried out. Within the spectrum of the voltage harmonic components the 5th, the 3rd and the 2nd harmonic components have the highest values. The maximum value of total coefficient of voltage harmonic components does not exceed 8% established by the standard for this voltage class.

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

References

  1. Kartashe I., Tulsky V., Shamonov R., Sharov Yu., Vorobev A. Upravlenie kachestvom elektroenergii [Electric power quality management]. Moscow, MEI publ., 2006, 320 p.
  2. Lundquist J. On Harmonic Distortion in Power Systems. Department of Electric Power Engineering: Technical report no. 371L. Göteborg, 2001, 139 p.
  3. Gosbell V., Perera S., Smith V. Harmonic distortion in the electric supply system. Integral Energy Power Quality Centre: Technical Note no. 3. Australia, 2000. 10 p.
  4. Zhezhelenko I.V. Visshie garmoniki v sistemah elektrosnabzheniya prompredpriyatiy [Higher harmonics in electric power supply systems of production enterprises]. Moscow, Energoatomizdat publ., 2004, 358 p.
  5. Zhezhelenko I.V., Saenko Yu.L. Kachestvo elektroenergii na promishlennih predpriyatiyah [Electric power quality at the industrial enterprises]. Moscow, Energoatomizdat publ., 2005, 261 p.
  6. Чэпмэн Д. Cost of poor quality of electric power. Energosberezhenie, 2004, no. 1, pp. 67–69.
  7. Sapronov A.A., Goncharov D.S. Low-quality electric power – additional component of lost business of energy provider. Sovremennie energeticheskie sistemi i kompleksi i upravlenie imi, chast 2, Novocherkassk, YuRGTU, 2006, pp. 68–77.
  8. Nikiforova V.N., Cudnova V.V. Sertification – an effective mechanism of state policy of electric power quality assurance. Vestnik Gosenergonadzora, 2000, no. 2, pp. 23–25.
  9. Gamazin S.I., Stavtsev V.A., Tsyruk S.A. Perehodnie protsessi v sistemah promishlennogo elektrosnabzheniya, obuslovlennie elektrodvigatelnoy nagruzkoy [Transient phenomena within industrial electric power supply systems caused by electromotor loading]. Moscow, MEI publ., 1997, 424 p.
  10. GOST 30804.4.7-2013. Electromagnetic compatibility of technical equipment. General guideline for measuring instruments and harmonics and interharmonics measuring for the electric power supply systems and technical equipment connected to them. Moscow, Standartinform Publ., 2014. 34 p. (In Russian).
  11. Voskoboynikov V.G., Kudrin V.A., Yakushev A.M. Obshchaya metallurgiya [General metallurgy]. 6th ed. Moscow, Akademkniga publ., 2005, 768 p.
  12. Dyudkin D.A., Kisilenko V.V. Sovremennaya tehnologiya proizvodstva stali [Modern technology of steel production]. Moscow, Teplotehnik publ., 2007, 528 p.
  13. Naranjo R.D. Advanced Melting Technologies: Energy Saving Concepts and Opportunities for the Metal Casting Industry. BCS Incorporated, 2005, 46 p.
  14. Ryabov A.V., Chumanov I.V., Shishimirov M.V. Sovremennie sposobi viplavki stali v dugovih pechah [Modern methods of steelmaking in arc furnaces]. Moscow, Teplotehnik publ., 2007, 192 p.
  15. Shevtsov M.S., Borodachev A.S. Razvitie elektrotermicheskoy tehniki [Development of electrothermic engineering]. Moscow, Energoatomizdat publ., 1983, 208 p.
  16. Mineev R.V., Miheev 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.
  17. Markov N.A. Elektricheskie tsepi i rezhimi dugovih elektricheskih ustanovok [Electric circuits and the modes of arc electric furnace plants]. Moscow, Energiya publ., 1975, 204 p.
  18. Svenchansky A.D., ed. Elektricheskie promishlennie pechi. Dugovie pechi i ustanovki spetsialnogo nagreva [Electric industrial furnaces. Arc furnaces and preliminary heat plants]. 2nd ed. Moscow, Energoizdat publ., 1981, 296 p.
  19. Taylor Ch. R., Custer C.C. Electric Furnace Steelmaking. Iron & Steel Society, 1985, 395 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. 20 p. (In Russian).

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c)



This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies