METODA ZA MODELOVANJE IZVORA BUKE, PRORAČUN I OCENU NIVOA BUKE USLED KORONE U OKOLINI NADZEMNOG VODA

UPRAVLJANJE I TELEKOMUNIKACIJE U EES / 21. simpozijum CIGRE Srbija 2024  (str. 190-204)

AUTOR(I) / AUTHOR(S): Iva Salom, Dejan Todorović, Milenko Kabović, Vladimir Čelebić, Marko Ralić, Nebojša Petrović, Nada Curović

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DOI:  10.46793/CIGRE21S.190S

SAŽETAK / ABSTRACT:

Sa razvojem prenosne mreže na visokim naponskim nivoima buka koja potiče od nadzemnih vodova postaje sve veći problem sa kojim se suočavaju operateri prenosne mreže širom sveta. Rešavanje problema zahteva velika ulaganja na postojećim vodovima i privremena isključenja tokom radova, stoga je neophodno već u procesu projektovanja nadzemnih vodova sprovesti metodologiju provere nivoa buke u okolini projektovanog voda, odnosno proveru uticaja predloženih rešenja na postojećim vodovima.

Rapidni razvoj računara omogućio je uvođenje matematičkog modelovanja i primenu numeričkih metoda u svakodnevnu inženjersku praksu, a različiti softverski paketi koriste se za detaljnu analizu i izračunavanje odgovarajućih fizičkih veličina. Za potrebe procene nivoa buke u okolini nadzemnog voda razvijena je metodologija korišćenjem jednog od softverskih alata koji se standardno koristi za proračune buke u životnoj sredini. Ova metoda, opisana u radu, može da bude korišćena prilikom projektovanja nadzemnih vodova.

KLJUČNE REČI / KEYWORDS:

nadzemni vod, korona, buka, mapiranje buke

LITERATURA / REFERENCES:

  1. CIGRÉ Technical Brochure 748 “Environmental issues of high voltage transmission lines in urban and rural areas,” CIGRE Working Group C3, B1, B2, December 2018
  2. EPRI Transmission Lines Reference Book – 345 kV and Above, 2nd, EPRI, Palo Alto California, USA, 1982
  3. S. Maruvada, “Corona Performance of High Voltage Transmission Lines,” Taylor & Francis Group, London, UK, 2000
  4. Abdel-Salam, “High voltage engineering-theory and practice, Marcel Dekker,” New York, 2000
  5. Kiessling, P. Nefzger, J.F. Nolasco, U. Kaintzyk, “Overhead Power Lines – Planning, Design, Construction,” Springer-Verlag Berlin Heidelberg 2003
  6. ESKOM Holdings Ltd, T. Pillay, S. Bisnath “The Planning, Design and Construction of Overhead Power Lines, 132 kV & above,” Crown Publications cc, Johannesburg, February 2005
  7. EPRI AC Transmission Line Reference Book—200 kV and Above, EPRI, Paolo Alto California, 3rd ed., Final report, December 2005
  8. CIGRÉ Technical Brochure 278 „ The Influence of Line Configuration on Environment Impacts of Electrical Origin – Principles of Overhead Line Design,” CIGRE Working Group B2.06, 2005
  9. CIGRÉ Technical Brochure 838 „ Coatings for protecting overhead power networks against icing, corona noise, corrosion and reducing their visual impact,” CIGRE Working Group B2.69, 2021
  10. L. Grigsby edt., “Electric Power Engineering Handbook – Electric Power Generation, Transmission, and Distribution,” CRC Press Taylor & Francis Group, 2nd ed., 2006
  11. D. Begamudre, “Extra High Voltage AC Transmission Engineering,” New AgeInternational (P) Ltd., Publishers, 2006
  12. A.M. Rizk, G.N. Trinh, “High Voltage Engineering,” Taylor & Francis Group, 6000 Broken Sound Parkway NW, Suite 300 Boca Raton, FL 33487-2742, 2014
  13. Gönen, “Electrical Power Transmission System Engineering: Analysis and Design,” 3rd ed., CRC Press, 2014.
  14. CIGRÉ Green Book, CIGRÉ, International Council on Large Electric Systems (CIGRE), Paris, France, SC B2 Overhead lines, Konstantin O. Papailiou Editor, Springer International Publishing Switzerland 2017
  15. IEEE Power Engineering Society “IEEE Standard Definitions of Terms Relating to Corona and Field Effects of Overhead Power Lines”, IEE Std 539-2005
  16. Donini, R. Spezie, R. Cortina, E.A. Piana, R. Turri, “Accurate prediction of the corona noise produced by overhead transmission lines. In Proceedings of the AEIT International Annual Conference: Sustainable Development in the Mediterranean Area, Energy and ICT Networks of the Future, Capri, Italy, 5–7 October 2016; Institute of Electrical and Electronics Engineers Inc.: Piscataway, NJ, USA, 2017
  17. A. Piana, A. Donini, R. Spezie, R. Turri, R. Cortina, “Prediction of the audible noise generated by corona discharge on a power transmission line: A model validation. In Proceedings of the 24th International Congress on Sound and Vibration (ICSV), London, UK, 23–27 July 2017; International Institute of Acoustics and Vibrations: Auburn, AL, USA, 2017
  18. A. Piana, F. Bignucolo, A. Donini, R. Spezie, “Maintenance of a High-Voltage Overhead Transmission Line: Sustainability and Noise Impact Assessment,” Sustainability 2018 Vol. 10, No. 491, pp. 1-22, February 2018
  19. Stracqualursi, R. Araneo, S Celozzi, “The Corona Phenomenon in Overhead Lines: Critical Overview of Most Common and Reliable Available Models,“ Energies 2021, Vol. 14, No. 6612, 2021
  20. Scheibner, A. Siegemund, A. Frenzel, “Schalltechnisches Gutachten auf Basis der TA Lärm,” für 50Hertz Transmission GmbH, 2017
  21. Siegemund, “Schalltechnisches Gutachten auf Basis der TA Lärm sowie DIN 18005,” Vorhabenträger Stadt Unterschleißheim, Bau‐Anlagen‐Umwelttechnik SHN GmbH, 2019
  22. Siegemund, “Schalltechnisches Gutachten auf Basis der TA Lärm“, Errichtung einer 380‐kV‐Freileitung Weida ‐ Remptendorf, 2021
  23. „Studija procene uticaja i monitoringa buke usled korona efekta na nadzemnim visokonaponskim vodovima EMS AD“, Institut Mihajlo Pupin (rukovodilac Iva Salom), Dirigent acoustics, rađeno za EMS AD, Beograd 2024
  24. SoundPLAN 9.1, SoundPLAN LLC, Braunstein + Berndt GmbH
  25. Čaršimamović, „Modeliranje napona početka stacionarne korone zasnovano na mjerenjima električnog polja,“ doktorska disertacija, Elektrotehnički fakultet, Univerzitet u Sarajevu, 2018
  26. Kephalopoulos, M. Paviotti, F. Anfosso-Lédée, Common Noise Assessment Methods in Europe (CNOSSOS-EU); Publications Office of the European Union: Luxembourg, 2012
  27. Zakon o zaštiti od buke u životnoj sredini, Službeni glasnik RS, br. 96/2021
  28. Uredba o indikatorima buke, graničnim vrednostima, metodama za ocenjivanje indikatora buke, uznemiravanja i štetnih efekata buke u životnoj sredini, Službeni glasnik RS, br. 75 od 20. oktobra 2010.
  29. SRPS ISO 1996-1 Akustika – Opisivanje, merenje i ocenjivanje buke u životnoj sredini – Deo 1: Osnovne veličine i procedure, novembar 2019. (identičan sa EN ISO 1996-1:2016)