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Korona Boşalmalarının Tutuşmasında ve Sönümlemesinde Yüksek Frekans Etkisinin Deneysel Olarak İncelenmesi

Yıl 2024, , 15 - 22, 29.03.2024
https://doi.org/10.24012/dumf.1351383

Öz

Bu çalışmada, elektrik iletim hatlarında yüksek frekanslı gerilim/akım salınımlarının korona deşarjlarının tutuşması ve sönümlenmesi üzerindeki etkisi deneysel olarak incelenmiştir. Enerji Üretim, iletim ve dağıtım hatlarında kısa devre arızaları veya devre açma/kapama nedeniyle oluşan dahili ve harici aşırı gerilimler, hatlarda farklı frekans değerlerinde gerilim/akım salınımlarına neden olur. Küre-Düzlem ve İğne-Düzlem gibi farklı elektrot sistemlerinde 50, 150, 250, 350 ve 500 Hz frekanslarında şebekelerdeki çeşitli frekanslardaki bu salınımların iletim hatlarındaki korona deşarjlarının tutuşma ve sönümleme üzerindeki etkileri araştırıldı. Sonuçlar, korona deşarjlarının ateşleme ve sönüm voltajlarının yüksek frekanslı voltaj/akım salınımlarından büyük ölçüde etkilendiğini ve frekans değerindeki artışın korona deşarjının tutuşmasını önemli ölçüde hızlandırdığını göstermiştir.

Kaynakça

  • [1] B.B. Alagoz, H.Z. Alisoy, S. Alagoz, F. Hansu, ''A space charge motion simulation with FDTD method and application in negative corona electrostatic field analysis'', Applied Mathematics and Computation, 218, pp. 9007-9017,2012
  • [2] G. ALISOY, F. Hansu, B.B. ALAGOZ, H.Z. ALİSOY, ''Transient analysis of double layer metal-gas-dielectric-metal DBD cell'', Balkan Journal of Electrical and Computer Engineering, 5, pp. 14-21,2017
  • [3] Y. Cheng, C. Li, X. Huang, ''Study of corona discharge pattern on high voltage transmission lines for inspecting faulty porcelain insulators'', IEEE Transactions on Power Delivery, 23, pp. 945-952, 2008
  • [4] A. Carsimamovic, A. Mujezinovic, S. Carsimamovic, Z. Bajramovic, M. Kosarac, K. Stankovic, ''Analyzing of AC Corona discharge parameters of atmospheric air'', Procedia Computer Science, 83, pp. 766-773, 2016
  • [5] G. T. Lewis, G. G. Karady, M. D. Sirkis, ''An analysis of the frequency characteristics of corona discharge at low pressure'', Philips Laboratory Directorate Of Advanced Weapons And Survivability Air Force Systems Command Kirtland Air Force Base, NM 87117-6008, 1991
  • [6] E. S. Jonson, P. D. Pedrow, B. L. Qin, '' Influence of voltage and load current on dc bipolar corona pulses'', IEEE Transactions on Dielectrics and Electrical Insulation, Volume:1, Issue: 2, pp. 284 – 293, Apr 1994
  • [7] M. Abdel-Salama, A. Muftib, ''Analysis of corona losses on monopolar dc transmission lines'', Electric Power Systems Research, Volume 44, Issue 2, pp. 145-154, February 1998
  • [8] P. Fuangpian, T. Zafar, S. Ruankorn, T. Suwanasri, '' Experimental investigation of the corona discharge in electrical transmission due to ac/dc electric fields '', MATEC Web of Conferences 50, 01004, pp. 1-5, 2016
  • [9] M. Rezinkina, O. Rezinkin, F. D’Alessandro, A. Danyliuk, A. Guchenko, S. Lytvynenko, ''Experimental and modelling study of the dependence of corona discharge on electrode geometry and ambient electric field'', Journal of Electrostatics, Volume 87, pp. 79-85, June 2017
  • [10] R. Çetin, '' Atmosferik nemin yüksek gerilim hava hatlarinda gerçekleşen korona kayiplari üzerindeki etkisinin deneysel olarak incelenmesi'', Siirt Üniversitesi, Fen Bilimleri Enstitüsü, (520865), 2018
  • [11] P. Dordizadeh, K. Adamiak, G.P. Castle, ''Experimental study of the characteristics of Trichel pulses in the needle-plane negative corona discharge in atmospheric air'', Journal of Electrostatics, 88, pp. 49-54, 2017
  • [12] H. Alisoy, C. Yeroglu, M. Koseoglu, F. Hansu, ''Investigation of the characteristics of dielectric barrier discharge in transition region'', Journal of Physics D: Applied Physics, 38, pp. 4272, 2005
  • [13] H.Z. Alisoy, A. Yesil, M. Koseoglu, I. Unal, ''An approach for unipolar corona discharge in N2/O2 gas mixture by considering townsend conditions'', Journal of Electrostatics, 69, pp. 284-290, 2011
  • [14] P. Fuangpian, T. Zafar, S. Ruankorn, T. Suwanasri, ''Experimental investigation of the corona discharge in electrical transmission due to AC/DC electric fields'', in: MATEC Web of Conferences, EDP Sciences, pp. 01004, 2016
  • [15] T.G. Lewis, G.G. Karady, M.D. Sirkis, ''An Analysis of the Frequency Characteristics of Corona Discharge at Low Pressure'', in, PHILLIPS LAB KIRTLAND AFB NM, 1991
  • [16] A. Jaworek, A. Krupa, ''Corona discharge from a multipoint electrode in flowing air'', Journal of electrostatics, 38 , pp.187-197,1996
  • [17] P. Intra, A. Yawootti, P. Rattanadecho, ''Influence of the corona-wire diameter and length on corona discharge characteristics of a cylindrical tri-axial charger'', Journal of Electrostatics, 74, pp. 37-46, 2015
  • [18] W. He, Y. Wang, L. Lan, X. Wen, B. Wan, ''Characteristics of AC corona discharge pulses and RI levels in a coaxial wire-cylinder gap'', 2016 IEEE International Conference on High Voltage Engineering and Application (ICHVE), IEEE, pp. 1-4, 2016
  • [19] E.A. Yahaya, T. Jacob, M. Nwohu, A. Sadiq, ''Power loss due to corona on High Voltage Transmission lines'', 2013
  • [20] H.A. Said, H. Nouri, Y. Zebboudj, ''Analysis of current-voltage characteristics in the wires-to-planes geometry during corona discharge'', The European Physical Journal-Applied Physics, 67, 2014
  • [21] M. Rezinkina, O. Rezinkin, F. D'Alessandro, A. Danyliuk, A. Guchenko, S. Lytvynenko, ''Experimental and modelling study of the dependence of corona discharge on electrode geometry and ambient electric field'', Journal of Electrostatics, 87, pp. 79-85, 2017

Experimental Investigation of High-Frequency Effect on Ignition and Damping of Corona Discharges

Yıl 2024, , 15 - 22, 29.03.2024
https://doi.org/10.24012/dumf.1351383

Öz

The impact of high-frequency voltage/current oscillations on the corona discharge’s ignition and damping in electrical networks were experimentally investigated as part of this study. Internal and external overvoltages caused by short-circuit faults or circuit opening/closing in the generation, transmission and distribution lines cause voltage/current oscillations on the lines at different frequencies. At frequencies of 50, 150, 250, 350, and 500 Hz in different electrode systems such as Sphere-Plane and Needle-Plane, the effects of these oscillations at various frequencies in the networks on the ignition and damping of corona discharges on transmission lines have been investigated. The results showed that the ignition and damping voltages of corona discharges are greatly influenced by high-frequency voltage/current oscillations, and that an increase in the frequency value significantly speeds up the corona discharge’s ignition.

Kaynakça

  • [1] B.B. Alagoz, H.Z. Alisoy, S. Alagoz, F. Hansu, ''A space charge motion simulation with FDTD method and application in negative corona electrostatic field analysis'', Applied Mathematics and Computation, 218, pp. 9007-9017,2012
  • [2] G. ALISOY, F. Hansu, B.B. ALAGOZ, H.Z. ALİSOY, ''Transient analysis of double layer metal-gas-dielectric-metal DBD cell'', Balkan Journal of Electrical and Computer Engineering, 5, pp. 14-21,2017
  • [3] Y. Cheng, C. Li, X. Huang, ''Study of corona discharge pattern on high voltage transmission lines for inspecting faulty porcelain insulators'', IEEE Transactions on Power Delivery, 23, pp. 945-952, 2008
  • [4] A. Carsimamovic, A. Mujezinovic, S. Carsimamovic, Z. Bajramovic, M. Kosarac, K. Stankovic, ''Analyzing of AC Corona discharge parameters of atmospheric air'', Procedia Computer Science, 83, pp. 766-773, 2016
  • [5] G. T. Lewis, G. G. Karady, M. D. Sirkis, ''An analysis of the frequency characteristics of corona discharge at low pressure'', Philips Laboratory Directorate Of Advanced Weapons And Survivability Air Force Systems Command Kirtland Air Force Base, NM 87117-6008, 1991
  • [6] E. S. Jonson, P. D. Pedrow, B. L. Qin, '' Influence of voltage and load current on dc bipolar corona pulses'', IEEE Transactions on Dielectrics and Electrical Insulation, Volume:1, Issue: 2, pp. 284 – 293, Apr 1994
  • [7] M. Abdel-Salama, A. Muftib, ''Analysis of corona losses on monopolar dc transmission lines'', Electric Power Systems Research, Volume 44, Issue 2, pp. 145-154, February 1998
  • [8] P. Fuangpian, T. Zafar, S. Ruankorn, T. Suwanasri, '' Experimental investigation of the corona discharge in electrical transmission due to ac/dc electric fields '', MATEC Web of Conferences 50, 01004, pp. 1-5, 2016
  • [9] M. Rezinkina, O. Rezinkin, F. D’Alessandro, A. Danyliuk, A. Guchenko, S. Lytvynenko, ''Experimental and modelling study of the dependence of corona discharge on electrode geometry and ambient electric field'', Journal of Electrostatics, Volume 87, pp. 79-85, June 2017
  • [10] R. Çetin, '' Atmosferik nemin yüksek gerilim hava hatlarinda gerçekleşen korona kayiplari üzerindeki etkisinin deneysel olarak incelenmesi'', Siirt Üniversitesi, Fen Bilimleri Enstitüsü, (520865), 2018
  • [11] P. Dordizadeh, K. Adamiak, G.P. Castle, ''Experimental study of the characteristics of Trichel pulses in the needle-plane negative corona discharge in atmospheric air'', Journal of Electrostatics, 88, pp. 49-54, 2017
  • [12] H. Alisoy, C. Yeroglu, M. Koseoglu, F. Hansu, ''Investigation of the characteristics of dielectric barrier discharge in transition region'', Journal of Physics D: Applied Physics, 38, pp. 4272, 2005
  • [13] H.Z. Alisoy, A. Yesil, M. Koseoglu, I. Unal, ''An approach for unipolar corona discharge in N2/O2 gas mixture by considering townsend conditions'', Journal of Electrostatics, 69, pp. 284-290, 2011
  • [14] P. Fuangpian, T. Zafar, S. Ruankorn, T. Suwanasri, ''Experimental investigation of the corona discharge in electrical transmission due to AC/DC electric fields'', in: MATEC Web of Conferences, EDP Sciences, pp. 01004, 2016
  • [15] T.G. Lewis, G.G. Karady, M.D. Sirkis, ''An Analysis of the Frequency Characteristics of Corona Discharge at Low Pressure'', in, PHILLIPS LAB KIRTLAND AFB NM, 1991
  • [16] A. Jaworek, A. Krupa, ''Corona discharge from a multipoint electrode in flowing air'', Journal of electrostatics, 38 , pp.187-197,1996
  • [17] P. Intra, A. Yawootti, P. Rattanadecho, ''Influence of the corona-wire diameter and length on corona discharge characteristics of a cylindrical tri-axial charger'', Journal of Electrostatics, 74, pp. 37-46, 2015
  • [18] W. He, Y. Wang, L. Lan, X. Wen, B. Wan, ''Characteristics of AC corona discharge pulses and RI levels in a coaxial wire-cylinder gap'', 2016 IEEE International Conference on High Voltage Engineering and Application (ICHVE), IEEE, pp. 1-4, 2016
  • [19] E.A. Yahaya, T. Jacob, M. Nwohu, A. Sadiq, ''Power loss due to corona on High Voltage Transmission lines'', 2013
  • [20] H.A. Said, H. Nouri, Y. Zebboudj, ''Analysis of current-voltage characteristics in the wires-to-planes geometry during corona discharge'', The European Physical Journal-Applied Physics, 67, 2014
  • [21] M. Rezinkina, O. Rezinkin, F. D'Alessandro, A. Danyliuk, A. Guchenko, S. Lytvynenko, ''Experimental and modelling study of the dependence of corona discharge on electrode geometry and ambient electric field'', Journal of Electrostatics, 87, pp. 79-85, 2017
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yüksek Gerilim
Bölüm Makaleler
Yazarlar

İlker Arı 0000-0002-1171-5533

Fevzi Hansu 0000-0002-5325-5459

Erken Görünüm Tarihi 29 Mart 2024
Yayımlanma Tarihi 29 Mart 2024
Gönderilme Tarihi 28 Ağustos 2023
Yayımlandığı Sayı Yıl 2024

Kaynak Göster

IEEE İ. Arı ve F. Hansu, “Experimental Investigation of High-Frequency Effect on Ignition and Damping of Corona Discharges”, DÜMF MD, c. 15, sy. 1, ss. 15–22, 2024, doi: 10.24012/dumf.1351383.
DUJE tarafından yayınlanan tüm makaleler, Creative Commons Atıf 4.0 Uluslararası Lisansı ile lisanslanmıştır. Bu, orijinal eser ve kaynağın uygun şekilde belirtilmesi koşuluyla, herkesin eseri kopyalamasına, yeniden dağıtmasına, yeniden düzenlemesine, iletmesine ve uyarlamasına izin verir. 24456