İzolatörlerde Buzlanmanın Yüzeysel Kaçak Akımlar Üzerindeki Etkisinin İncelenmesi
Year 2023,
, 713 - 723, 01.09.2023
Muhammed Buğracan Özküçük
,
Muhsin Gençoğlu
Abstract
Dünya nüfusunun artmasıyla birlikte enerji üretimi ve dağıtımının önemi de artmaktadır. Elektrik iletim ve dağıtım hatlarının güvenirliği ve sürekliliğinde en etkin rol oynayan elemanlardan biri izolatörlerdir. İzolatörlerden kaynaklanan arızalar güç sistemi arızalarının en yüksek oranını oluşturmaktadır. Buzlanma ve sonrasında oluşan izolatör arızaları, yoğun kış koşullarının gerçekleştiği bölgelerde izolatör yüzeyinde atlamalara neden olarak elektrik kesintilerine ve büyük sosyoekonomik sonuçlara yol açmaktadır. Sızıntı akımları buzla kaplı izolatörlerin yüzey özellikleriyle doğrudan ilişkilidir. Bu çalışmada farklı malzemelerden yapılmış izolatörler laboratuvar ortamında buzlandırılmış ve buzlanma derecelerine göre izolatörlere şebeke frekanslı alternatif gerilim uygulanarak sızıntı akımları incelenmiştir. LabVIEW programı yardımıyla veriler elde edilmiş ve porselen, cam ve silikon izolatörlerin sızıntı akımları karşılaştırılmıştır. İzolatörün bulunduğu ortam sıcaklığı ve nem değerleri ölçülerek, bu değerlerle sızıntı akımları arasında ilişkiler belirlenmiştir.
Supporting Institution
Fırat Üniversitesi
Thanks
Bu çalışma FÜBAP MF.21.68 numaralı proje kapsamında desteklenmiştir.
References
- Farzaneh M, Kiernicki J. Flashover problems caused by ice build up on insulators. IEEE Electr Insul Mag 1995; 11(2): 5–17.
- Chisholm WA. North American operating experience: Insulator flashovers in cold conditions. CIGRE Study Committee 33 Colloq 1997; 1–4.
- Farzaneh M, Zhang J and Volat C. Effect of insulator diameter on AC flashover voltage of an ice-covered insulator string. IEEE Trans Dielectr Electr Insul 2006; 13(2): 264–271.
- Jiang X, Wang S, Zhang Z, Xie S, and Wang Y. Study on AC Flashover Performance and Discharge Process of Polluted and Iced IEC Standard Suspension Insulator String. IEEE Trans Power Delivery 2007; 22(1): 472–480.
- Zhang Z, Jiang X, Sun C, Hu J, Huang H and Gao DW. Influence of insulator string positioning on AC icing flashover performance. IEEE Trans Dielectr Electr Insul 2012; 19(4): 1335–1343.
- Farzaneh M. Insulator icing flashover. 2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena; 2013; Chenzhen, China. 1–15.
- Xu Z, Xu T, Yao T, Li X, Li J, Chen J, ... & Jia R. Flashover performance of UHV amp; EHV post insulators under icing conditions. 2014 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP); 2014; Des Moines, IA, USA. 295–298.
- Yin F, Jiang X, & Farzaneh M. Electrical performance of composite insulators under icing conditions. IEEE Trans Dielectr Electr Insul 2014; 21(6): 2584–2593.
- Jiang X, Xiang Z, Zhang Z, Hu J, Hu Q and Shu L. Comparison on ac icing flashover performance of porcelain, glass, and composite insulators. Cold Reg Sci Technol 2014; 100: 1–7.
- Shu L, Wang S, Jiang X, Hu Q, Liang J, Yin P & Chen J. Modeling of AC flashover on ice-covered composite insulators with different shed configurations. IEEE Trans Dielectr Electr Insul 2014; 21(6): 2642–2651.
- Porkar B & Farzaneh M. Ac Flashover Performance of a Horızontal Insulator Strıng Under Heavy Icıng Condıtıons. The 20th International Symposium on High Voltage Engineering; 2017; Buenos Aires, Argentina.
- Tian L, Zhang Z, Jiang X, Shu L, Hu J & Qin H. Study on the Icing Accretion Characterization of Porcelain and Glass Insulator. 2018 IEEE International Conference on High Voltage Engineering and Application (ICHVE); 2018; Athens, Greece. 1–4.
- Li C, Liu Y, Wang Z, Li Q, Farzaneh M and Du B. X. Transformation and Analysis of Leakage Current for Icing Flashover Prediction of HVDC Outdoor Insulators. 2023 IEEE 4th International Conference on Electrical Materials and Power Equipment (ICEMPE); 2023; Shanghai. pp. 1-4.
- Zong C, Hu Y, Jiang X, Xian R, Liu Z, & Sun J. AC flashover characteristics and arc development process of glaze ice-covered insulators in natural environment. Int J Electr Power Energy Syst 2022; 135, 107559.
- Qiao X, Zhang Z, Jiang X, Sundararajan R, Ma X, & Li X. AC failure voltage of iced and contaminated composite insulators in different natural environments. Int J Electr Power Energy Syst 2020; 120, 105993.
- Zhu Y, Zhou R, Zhang Y, Dong X, & Huang X. Review on flashover risk prediction method of iced insulator based on icing monitoring technology. Cold Reg Sci Technol 2021; 185, 103252.
- Rizk FA. Mathematical models for pollution flashover. Electra 1981; 78(5): 71–103.
- Farzaneh M, Zhang J, Chaarani R & Fikke SM. Critical conditions of AC arc propagation on ice surfaces. in Conference Record of the 2000 IEEE International Symposium on Electrical Insulation (Cat. No.00CH37075) 2000; 211–215.
- Neumarker G. Verschmutzungszustand und kriechweg. Monatsber D Deut Akad 1959; 1: 352–359.
- Farzaneh M, Chisholm W. A. Insulators for icing and polluted environments. Canada: John Wiley \& Sons, 2009.
Investigation of the Effect of Icing on Insulators on Surface Leakage Currents
Year 2023,
, 713 - 723, 01.09.2023
Muhammed Buğracan Özküçük
,
Muhsin Gençoğlu
Abstract
With the increasing world population, energy production and distribution has a very important place today. Insulators are one of the elements that play the most active role in the reliability and continuity of electrical transmission and distribution lines. Faults from insulators account for the highest rate of power system failures. Icing and subsequent insulator failures cause flashover on the insulator surface in areas where intense winter conditions occur, leading to power outages and major socioeconomic consequences. Leakage currents are directly related to the surface properties of ice-coated insulators. In this study, the surface of insulators made of different materials were iced in a laboratory environment and leakage currents were studied by applying an alternating voltage with a network frequency to the insulators according to the degree of icing. Data were obtained with the help of LabVIEW program and leakage currents of porcelain, glass and silicon insulators were compared. The relationship between the leakage current was established by measuring the ambient temperature and humidity values of the insulator.
References
- Farzaneh M, Kiernicki J. Flashover problems caused by ice build up on insulators. IEEE Electr Insul Mag 1995; 11(2): 5–17.
- Chisholm WA. North American operating experience: Insulator flashovers in cold conditions. CIGRE Study Committee 33 Colloq 1997; 1–4.
- Farzaneh M, Zhang J and Volat C. Effect of insulator diameter on AC flashover voltage of an ice-covered insulator string. IEEE Trans Dielectr Electr Insul 2006; 13(2): 264–271.
- Jiang X, Wang S, Zhang Z, Xie S, and Wang Y. Study on AC Flashover Performance and Discharge Process of Polluted and Iced IEC Standard Suspension Insulator String. IEEE Trans Power Delivery 2007; 22(1): 472–480.
- Zhang Z, Jiang X, Sun C, Hu J, Huang H and Gao DW. Influence of insulator string positioning on AC icing flashover performance. IEEE Trans Dielectr Electr Insul 2012; 19(4): 1335–1343.
- Farzaneh M. Insulator icing flashover. 2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena; 2013; Chenzhen, China. 1–15.
- Xu Z, Xu T, Yao T, Li X, Li J, Chen J, ... & Jia R. Flashover performance of UHV amp; EHV post insulators under icing conditions. 2014 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP); 2014; Des Moines, IA, USA. 295–298.
- Yin F, Jiang X, & Farzaneh M. Electrical performance of composite insulators under icing conditions. IEEE Trans Dielectr Electr Insul 2014; 21(6): 2584–2593.
- Jiang X, Xiang Z, Zhang Z, Hu J, Hu Q and Shu L. Comparison on ac icing flashover performance of porcelain, glass, and composite insulators. Cold Reg Sci Technol 2014; 100: 1–7.
- Shu L, Wang S, Jiang X, Hu Q, Liang J, Yin P & Chen J. Modeling of AC flashover on ice-covered composite insulators with different shed configurations. IEEE Trans Dielectr Electr Insul 2014; 21(6): 2642–2651.
- Porkar B & Farzaneh M. Ac Flashover Performance of a Horızontal Insulator Strıng Under Heavy Icıng Condıtıons. The 20th International Symposium on High Voltage Engineering; 2017; Buenos Aires, Argentina.
- Tian L, Zhang Z, Jiang X, Shu L, Hu J & Qin H. Study on the Icing Accretion Characterization of Porcelain and Glass Insulator. 2018 IEEE International Conference on High Voltage Engineering and Application (ICHVE); 2018; Athens, Greece. 1–4.
- Li C, Liu Y, Wang Z, Li Q, Farzaneh M and Du B. X. Transformation and Analysis of Leakage Current for Icing Flashover Prediction of HVDC Outdoor Insulators. 2023 IEEE 4th International Conference on Electrical Materials and Power Equipment (ICEMPE); 2023; Shanghai. pp. 1-4.
- Zong C, Hu Y, Jiang X, Xian R, Liu Z, & Sun J. AC flashover characteristics and arc development process of glaze ice-covered insulators in natural environment. Int J Electr Power Energy Syst 2022; 135, 107559.
- Qiao X, Zhang Z, Jiang X, Sundararajan R, Ma X, & Li X. AC failure voltage of iced and contaminated composite insulators in different natural environments. Int J Electr Power Energy Syst 2020; 120, 105993.
- Zhu Y, Zhou R, Zhang Y, Dong X, & Huang X. Review on flashover risk prediction method of iced insulator based on icing monitoring technology. Cold Reg Sci Technol 2021; 185, 103252.
- Rizk FA. Mathematical models for pollution flashover. Electra 1981; 78(5): 71–103.
- Farzaneh M, Zhang J, Chaarani R & Fikke SM. Critical conditions of AC arc propagation on ice surfaces. in Conference Record of the 2000 IEEE International Symposium on Electrical Insulation (Cat. No.00CH37075) 2000; 211–215.
- Neumarker G. Verschmutzungszustand und kriechweg. Monatsber D Deut Akad 1959; 1: 352–359.
- Farzaneh M, Chisholm W. A. Insulators for icing and polluted environments. Canada: John Wiley \& Sons, 2009.