Research Article
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Analysis of Catenary Short Circuit Case in a 1500 V DC Fed Railway Line with a Dynamic Model Algorithm

Year 2019, Volume: 2 Issue: 2, 143 - 160, 30.09.2019
https://doi.org/10.46373/hafebid.571931

Abstract

Electricity supply railways in transportation systems have a high rate of investment preference. In the case of electric railways, the electrification of the electrification system is essential for the continuity of the operation. Before its design,
the features of the system are simulated and the capacity, performance and failure conditions of the electrification system are tested. It is of utmost importance
to analyze fault conditions and take possible measures for business continuity. In
this study, having created a dynamic model, a 1500 V DC powered urban subway
line has been simulated. While the algorithm developed for dynamic structure is
explained, its simulation results are given. For the study, the analysis of a possible short circuit condition in the catenary system has been investigated. Using the
data of a rail system line with 7 substations, the possible effects of the short circuit
condition have been evaluated over the graphs. Measures to be taken from the results obtained are given.

References

  • [1] Kocaarslan, İ., Akçay, M., T., Ulusoy, S., E., Bal, E., Tiryaki, H., 2017, Creation of a dynamic model of the electrification and traction power system of a 25 kV AC feed railway line together with the analysis of different operation scenarios using Matlab/Simulink, Turkish Journal of Electrical Engineering & Computer Sciences, 25, 4254-4267.
  • [2] Akçay, M., T., Kocaarslan, İ., 2019, Determination Of Distance Between DC Traction Power Centers İn A 1500 V DC Subway Line With Artificial İntelligence Methods, Turkish Journal of Electrical Engineering & Computer Sciences, 27, 289-303.
  • [3] Kocaarslan, İ., Akçay, M., T., Akgündoğdu, A., Tiryaki, H., 2017, The comparison of the ANN and SVM Methods for the Prediction of Voltage Drop on a Subway Line, International Journal of Engineering Research and Advanced Development (IJERAD) , 10, 57-65 .
  • [4] Kocaarslan, İ., Akçay, M., T., Akgündoğdu, A., Tiryaki, H., 2017, The comparison of the ANN and ANFIS methods for the prediction of voltage drop on an electric railway line, Journal of Electrical & Electronics Engineering (IUJEEE), 18, 26-35.
  • [5] Baseri MAA, Nezhad MN, Sandidzadeh MA. Compensating procedures for power quality amplification of AC electrified railway systems using FACTS. In: PEDSTC 2011 Power Electronics Drive Systems and Technologies Conference; 16-17 Februrary 2011; Tehran, Iran. New York, USA: IEEE. pp. 518-521.
  • [6] Brenna M, Foiadelli F. The compatibility between DC and AC supply of the Italian railway system. In: Power and Energy Society General Meeting; 24-29 July 2011;San Diego, USA. New York, USA: IEEE pp.1-7.
  • [7] Abrahamsson L, Kjellqvist T, Ostlund S. High-voltage DC-feeder solution for electric railways. IET Power Electronics 2012; 5: 1776 - 1784.
  • [8] Raygani SV, Tahavorgar A, Fazel SS, Moaveni B. Load flow analysis and future development study for an AC electric railway. IET Electrical Systems in Transportation 2012; 2: 139-147.
  • [9] Goodman CJ, Chymera M. Modelling and simulation. In: REIS 2013 Railway Electrification Infrastructure and Systems Conference; 3-6 June 2013; London, England. New York, USA: IEEE. pp. 16-25.
  • [10] Ladoux P, Raimondo G, Caron H, Marino P. Chopper-Controlled steinmetz circuit for voltage balancing in railway substations. IEEE Transactions on Power Electronics 2013; 28: 5813-5822.
  • [11] Shin HS, Cho SM, Kim JC. Protection scheme using SFCL for electric railways with automatic power changeover switch system. IEEE Transactions on Applied Superconductivity 2012; 20: 5600604.
  • [12] Shin HS, Cho SM, Huh JS, Kim JC, Kweon DJ. Application on of SFCL in automatic power changeover switch system of electric railways. IEEE Transactions on Applied Superconductivity 2012; 22: 5600704.
  • [13] Kolar V, Hrbac R, Mlcak T. Measurement and simulation of stray currents caused by AC railway traction. In: EPE 2015 Electric Power Engineering Conference; 20-22 May 2015; Prague, Czech Republic. New York, USA: IEEE. pp. 764-768.
  • [14] Chen M, Jiang W, Luo J, Wen T. Modelling and simulation of new traction power supply system in electrified railway. In: ITSC 2015 IEEE 18th International Conference on Intelligent Transportation Systems; 15-18 September 2015; Las Palmas, Canada. New York, USA: IEEE. pp. 1345-1350.
  • [15] Soler M, Lopez J, Manuel J, Pedro MS, Maroto J. Methodology for multiobjective optimization of the AC railway power supply system. IEEE Transactions on Intelligent Transportation Systems 2015; 16: 2531-2542.
  • [16] He Z, Zhang Y, Gao S. Harmonic resonance assessment to traction power supply system considering train model in China high-speed railway. IEEE Transactions On Power Delivery 2014; 29: 1735-1743.
  • [17] Tian Z., Hillmansen, S., Roberts, C., Weston, P., Chen, L., Zhao, N., Su, S., Xin, T. Modeling and Simulation of DC Rail Traction Systems for Energy Saving. ; 9-11 October 2014; Qingdao, China. New York, USA: IEEE. pp. 2354-2359.

Dinamik Model Algoritması ile 1500 V DC Beslemeli Bir Metro Hattında Katener Kısa Devre Durumunun Analizi

Year 2019, Volume: 2 Issue: 2, 143 - 160, 30.09.2019
https://doi.org/10.46373/hafebid.571931

Abstract

Ulaşım sistemleri içinde elektrik beslemeli demiryolları yatırım tercihi olarak
yüksek bir orana sahiptir. Elektrikli demiryollarında ise elektrifikasyon sisteminin elektrik verme görevini kusursuz olarak yerine getirebilmesi işletme sürekliliği için esastır. Tasarım öncesinde elektrifikasyon sistemi benzetimi yapılarak
sisteme ait kapasite, performans ve arıza durumları test edilmektedir. İşletme sürekliliği için arıza durumlarının analizi ve olası tedbirlerin alınması büyük önem
taşımaktadır. Bu çalışmada dinamik bir model oluşturularak 1500 V DC beslemeli
bir şehiriçi metro hattının benzetimi yapılmıştır. Dinamik yapı için geliştirilen algoritma anlatılarak benzetim sonuçları verilmiştir. Çalışma için katener sisteminde
olası bir kısa devre durumunun analizi araştırılmıştır. 7 trafo merkezi bulunan bir
raylı sistem hattına ait veriler kullanılarak kısa devre durumunun olası etkileri grafikler üzerinden değerlendirilmiştir. Elde edilen sonuçlar üzerinden alınması gereken tedbirler verilmiştir.

References

  • [1] Kocaarslan, İ., Akçay, M., T., Ulusoy, S., E., Bal, E., Tiryaki, H., 2017, Creation of a dynamic model of the electrification and traction power system of a 25 kV AC feed railway line together with the analysis of different operation scenarios using Matlab/Simulink, Turkish Journal of Electrical Engineering & Computer Sciences, 25, 4254-4267.
  • [2] Akçay, M., T., Kocaarslan, İ., 2019, Determination Of Distance Between DC Traction Power Centers İn A 1500 V DC Subway Line With Artificial İntelligence Methods, Turkish Journal of Electrical Engineering & Computer Sciences, 27, 289-303.
  • [3] Kocaarslan, İ., Akçay, M., T., Akgündoğdu, A., Tiryaki, H., 2017, The comparison of the ANN and SVM Methods for the Prediction of Voltage Drop on a Subway Line, International Journal of Engineering Research and Advanced Development (IJERAD) , 10, 57-65 .
  • [4] Kocaarslan, İ., Akçay, M., T., Akgündoğdu, A., Tiryaki, H., 2017, The comparison of the ANN and ANFIS methods for the prediction of voltage drop on an electric railway line, Journal of Electrical & Electronics Engineering (IUJEEE), 18, 26-35.
  • [5] Baseri MAA, Nezhad MN, Sandidzadeh MA. Compensating procedures for power quality amplification of AC electrified railway systems using FACTS. In: PEDSTC 2011 Power Electronics Drive Systems and Technologies Conference; 16-17 Februrary 2011; Tehran, Iran. New York, USA: IEEE. pp. 518-521.
  • [6] Brenna M, Foiadelli F. The compatibility between DC and AC supply of the Italian railway system. In: Power and Energy Society General Meeting; 24-29 July 2011;San Diego, USA. New York, USA: IEEE pp.1-7.
  • [7] Abrahamsson L, Kjellqvist T, Ostlund S. High-voltage DC-feeder solution for electric railways. IET Power Electronics 2012; 5: 1776 - 1784.
  • [8] Raygani SV, Tahavorgar A, Fazel SS, Moaveni B. Load flow analysis and future development study for an AC electric railway. IET Electrical Systems in Transportation 2012; 2: 139-147.
  • [9] Goodman CJ, Chymera M. Modelling and simulation. In: REIS 2013 Railway Electrification Infrastructure and Systems Conference; 3-6 June 2013; London, England. New York, USA: IEEE. pp. 16-25.
  • [10] Ladoux P, Raimondo G, Caron H, Marino P. Chopper-Controlled steinmetz circuit for voltage balancing in railway substations. IEEE Transactions on Power Electronics 2013; 28: 5813-5822.
  • [11] Shin HS, Cho SM, Kim JC. Protection scheme using SFCL for electric railways with automatic power changeover switch system. IEEE Transactions on Applied Superconductivity 2012; 20: 5600604.
  • [12] Shin HS, Cho SM, Huh JS, Kim JC, Kweon DJ. Application on of SFCL in automatic power changeover switch system of electric railways. IEEE Transactions on Applied Superconductivity 2012; 22: 5600704.
  • [13] Kolar V, Hrbac R, Mlcak T. Measurement and simulation of stray currents caused by AC railway traction. In: EPE 2015 Electric Power Engineering Conference; 20-22 May 2015; Prague, Czech Republic. New York, USA: IEEE. pp. 764-768.
  • [14] Chen M, Jiang W, Luo J, Wen T. Modelling and simulation of new traction power supply system in electrified railway. In: ITSC 2015 IEEE 18th International Conference on Intelligent Transportation Systems; 15-18 September 2015; Las Palmas, Canada. New York, USA: IEEE. pp. 1345-1350.
  • [15] Soler M, Lopez J, Manuel J, Pedro MS, Maroto J. Methodology for multiobjective optimization of the AC railway power supply system. IEEE Transactions on Intelligent Transportation Systems 2015; 16: 2531-2542.
  • [16] He Z, Zhang Y, Gao S. Harmonic resonance assessment to traction power supply system considering train model in China high-speed railway. IEEE Transactions On Power Delivery 2014; 29: 1735-1743.
  • [17] Tian Z., Hillmansen, S., Roberts, C., Weston, P., Chen, L., Zhao, N., Su, S., Xin, T. Modeling and Simulation of DC Rail Traction Systems for Energy Saving. ; 9-11 October 2014; Qingdao, China. New York, USA: IEEE. pp. 2354-2359.
There are 17 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Mehmet Taciddin Akçay 0000-0002-1050-4566

İlhan Kocaarslan 0000-0003-2591-4047

Publication Date September 30, 2019
Published in Issue Year 2019 Volume: 2 Issue: 2

Cite

APA Akçay, M. T., & Kocaarslan, İ. (2019). Dinamik Model Algoritması ile 1500 V DC Beslemeli Bir Metro Hattında Katener Kısa Devre Durumunun Analizi. Haliç Üniversitesi Fen Bilimleri Dergisi, 2(2), 143-160. https://doi.org/10.46373/hafebid.571931

T. C. Haliç University Journal of Science