Intelligent Detection of the Location of Voltage Flicker in Active Distribution Networks Using ANN
محورهای موضوعی : انرژیهای تجدید پذیر و شبکه های هوشمند
Mojtaba Ajoudani
1
,
سید رضا مسیببی
2
1 - گروه مهندسی برق، واحد بندرگز، دانشگاه آزاد اسلامی، بندرگز، ایران
2 - دانشگاه آزاد اسلامی واحد بندرگز
کلید واژه: S-Transform, Artificial Neural Network, Distribution Network, Voltage Flicker, Power Quality.,
چکیده مقاله :
This article presents a new method for detecting the location of voltage flicker in active distribution networks. By measuring and sampling the voltage of the buses, the flicker detection index is extracted from the information on the amplitude and frequency of the voltages. The extraction of this index is based on the new frequency-time transformation S (S-Transform) which is used to detect the presence of flicker. The obtained index has been used to train a neural network to detect the polluting location. The input of the neural network is the measured indicator of voltage flicker in the buses, and the output of the neural network is the state of all the buses in terms of flicker occurrence. The proposed method has been tested on a sample 14-bus network. EMTP/ATP software has been used to simulate flicker in the power network. The simulation results show that by choosing the appropriate location of the measurements in the network, with a small number of measurements, buses or areas where the polluting load is located can be intelligently identified.
[1] IEC 38:1983, IEC Standard Voltages.
[2] Sexauer, Jason M. Mohagheghi, Salman, “Voltage quality assessment in a distribution system with distributed generation-a probabilistic load flow approach”, IEEE Transactions on Power Delivery, v 28, n 3, p1652-1662, 2013.
[3] Hernández, J.C. Ortega, M.J. Vidal, P.G. “Procedure for the technical measurement of harmonic, flicker and unbalance emission limits for photovoltaic-distributed generation”, International Conference on Power Engineering, Energy and Electrical Drives, 2011, PowerEng2011.
[4] Jasinski, Michal; Sikorski, Tomasz; Kostvla, Pawel;Borkowski, Klaudiusz,“Global power quality indices for assessment of multipoint Power quality measurements” Proceedings of the 10th International Conference on Electronics, Computers and Artificial Intelligence, ECAI 2018, April 1, 2019, ECAI 2018.
[5] Mohammadi, Ebrahim; Fadaeinedjad, Roohollah; Naji, Hamid Reza,“Flicker emission, voltage fluctuations, and mechanical loads for small-scale stall- and yaw-controlled wind turbines” Energy Conversion and Management, p 567-577, 1 June 2018.
[6] Xiao Xiang-ning, power quality analysis and control, China Electric Power Press, Beijing, 2014.
[7] Li, Lin; Gao, Yunpeng; Zhang, Yunqi; Wu, Cong; Cao, Yijia, “Voltage Flicker Envelope Tracking Based on Improved k-Value Energy Operator and Improved Chirp-Z Transform”, Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, v 33, n 11, p 2636-2646, June 10, 2018.
[8] Chang, Gary W.; Chen, Yi-Ying; Lin, Yu-Luh,“A synchrosqueezing transform-based hybrid method for voltage fluctuations assessment”IEEE Transactions on Power Delivery, v 33, n 5, p 2541- 2550, October 2018.
[9] Gao, Yunpeng; Zhang, Yunqi; He, Yunze; Teng, Zhaosheng; Cao, Yijia “Real-Time Voltage Flicker Tracking Method Based on Improved Teager Energy Operator and Fourier Transform” Electric Power Components and Systems, v 46, n 10, p 1196-1207, June 15, 2018.
[10] Gu Ting Yun, Gao Yunpeng, Wu Cong, etc. Voltage flicker parameter detection based on energy operator and six cosine window spectrum correction, Transactions of China Electro technical Society, Vol.33 No.11, Jun. 2018.
[11] Yin Guoming, Chen Kexu,Gao Yunpeng,etc, Flicker parameters detection using the Teager-Kaiser energy operator based on Blackman-Harris window and triple spectrum line interpolation, Electrical Measurement & Instrumentation: Vol.56 No. 4, Feb.25,2019.
[12] Chai, Lin; Sun, Jun Ru, Voltage flicker extraction based on wavelet analysis, Applied Mechanics and Materials, v 385-386, p 1389-1393, 2013.
[13] Li, Zhenmei; Shen, Jin; Liu, Wei; Wang, YaJing, Voltage flicker monitoring based on virtual instrument and wavelet packet transform, International Journal of Advancements in Computing Technology, v 4, n 23, p 466-474, December 2012.
[14] Zou, Weihui; Su, Shiping, Voltage flicker detection based on wavelet fourier transform 2011 International Conference on Electrical and Control Engineering, p4218-4220, 2011, ICECE 2011, Proceedings.
[15] Satpathi, Kuntal; Yeap, Yew Ming; Ukil, Abhisek; Geddada, Nagesh, Short-Time Fourier Transform Based Transient Analysis of VSC Interfaced Point-to-Point DC System. IEEE Transactions on Industrial Electronics, v 65, n 5, p 4080-4091, May 2018.
[16] Zhao, Feng-Zhan; Yang, Ren-Gang, Voltage sag disturbance detection based on short time fourier transform,Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, v 27, n 10, p 28-34+109, April 5, 2007.
[17] A. M. Dan, “Identification of Flicker Sources,” 8th International Conference on Harmonics and Quality of Power, Vol 2, pp.1179-1181, Athens Greece, Oct 1998.
[18] P. Axelberg, Math H.J. Bollen Irene Y.H. Gu “A Measurement Method for Determining the Direction of Propagation of Flicker and for Tracing a Flicker Source,” 18th International Conference on Electricity Distribution, June 2005.
[19] P. Axelberg, “Measurement Methodes for Calculating the Direction to a Flicker Source,” Chalmres University of Technolog, 2003.
[20] P. K. Dash, B. K. Panigrahi, G. panda, “Power Quality Analysis using S-transform,” IEEE Trans. Power Delivery, Vol. 18, No. 2, Apr. 2003.
[21] I. W. C. Lee, P. K. Dash, “S-transform-based Intelligent System for Classification of Power Quality Disturbance Signals,” IEEE Trans. Industrial Electronics. Vol. 50, No. 4, Agu. 2003.
[22] M. V. Chilukuri, P. K. Dash, “Multiresolution S-transform-Based fuzzy recognition system for power quality events,” IEEE Trans. Power Delivery. Vol. 9, No. 1, Jan 2004.
[23] Benoit Boulet, Gino Lalli, Mark Ajersch, “Modeling and Control of an Electric Arc Furnace,” Proc. of the American Control Conference, 2003.
[24] H.M. Petersen, R.G. Koch, P.H. Swart, R. Van Heerden, “Modeling Arc Furnace Flicker and Investigating Compensation Techniques,” Conference Record of the Industrial Application Society, 1995.
[25] http://www.ee.ualberta.ca/pwrsys/IEEE.
