Enhancement of Power Quality Using Dynamic Voltage Restorer in Cigarette Industries
Citation
Exaud SaulTweve, Godwin ElinaziMnkeni "Enhancement of Power Quality Using Dynamic Voltage Restorer in Cigarette Industries", International Journal of Engineering Trends and Technology (IJETT), V55(2),87-93 January 2018. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
Power Electronics and Advanced Control Technologies have made it possible to mitigate power quality problems and maintain the operation of sensitive loads. Among power system disturbances, voltage sags and voltage swells are widely accepted to be the most prominent power quality problems to end users. In this study evaluation of TCC network voltage sags and swells disturbances and impacts to utilities without custom power devices is carried out. At present a wide range of flexible controllers which capitalize on new available power electronics components are emerging for custom power applications. A literature review was carried out in order to explore the status of the custom power devices that have been proposed and/or installed in the industrial distribution systems. Dynamic Voltage Restorer (DVR) based on Voltage Source Converter (VSC) was found to provide the best economic solution. The modeling and simulation of DVR using Matlab/Simulink is presented. A control system based on direct quadrature zero (d-q-0) techniques is presented. The simulation results have shown that the DVR performance is satisfactory in mitigating voltage sags and swells.
Reference
[1] A. Pabla, Electric Power Distribution, Fifth Edition Tata McGraw-Hill Publishing Company Limited, New Delhi, 2003
[2] Paserba, J. John, F. Gregory, t. Masatoshi and A .Tomohiko , “FACTS and Custom Power” Symposium of Specialists in Electric Operational And Expansion Planning (Vii SEPOPE) Curitiba, Brazil, May 21-26 2000.
[3] A. Ghosh, and G .Ledwish, Power Quality Enhancement using Custom Power Devices, Kluwer Academic Publishers, 2002
[4] Hingorani, “Introducing custom power” IEEE Spectrum, Vol.32, No.6, pp 41-48, 1995
[5] H.M. Rosli Omar, N. A Rahim, “Power Quality Improvement in Low Voltage Distribution System Using Dynamic Voltage Restorer”, 2010, 5th IEEE Conference on Industrial Electronics and Applications
[6] H.M. Rosli Omar, N. A. Rahim “Mitigation of Voltage Swells Disturbances in Low Voltage Distribution Systems”, Asian Power Electronics Journal, Vol. 4, No 3 December 2010
[7] D.M. Vilathgamuwa, H.M.Vijekoon and S.S. Choi “Interline Dynamic Voltage Restorer: a Novel and Economical Approach for Multiline Power Quality Compensation,” IEEE Transaction on Industry Applications, Vol. 40, pp 1678 -1685 Nov – Dec. 2004.
[8] S.W. Wahab, A .MohdYusof “Voltage sags Mitigation Using Dynamic Voltage Restorer (DVR) System”, Elektrika Journal of Electrical Engineering 8(2): 32-37, 2006
[9]Ceati, (2007), “Power Quality Energy Efficiency Reference Guide”, CeatiEutig group 102 pages
[10] Ali O Al-Mathnani, Hussain, S., Azah, Mohamed., M.A. Hannan , “Power Quality Improvement Using DVR with Two Fast Vector Control”, The 4th International Power Engineering and Optimization Conf. (PEOCO290), Shah Alam, Selangor Malaysia: June 2010
[11] M. F. McGranaghan, D. R. Mueller and M. J. Samoty, “Voltage sags in industrial systems”, IEEE Trans. Ind. Applications, 397-403., 1993
[12] S.S. Mahesh, M.K. Mishra, B.K Kumar, and V. Jayashnhar, “Rating and Design Issues of DVR Injection Transformer”, IEEE Applied Power Electronics Conference and Exposition, 449-455, 2008
[13] C.R. Kothari, Research methodology: Methods and techniques, New Delhi: New Age International Publishers, 1994
[14] D.M. Lee, “A Voltage Sag Supporter Utilizing a PWM Switched Autotransformer” Georgia, Institute of Technology Electrical and Computer Engineering, 2004
[15] Mark McGranaghan, Bill Roettger, (2002), “Economic Evaluation of Power Quality”, IEEE Power Engineering Review February 2002.
[16] P. Usha Rani, S. Rama Reddy, “Dynamic Voltage Restorer using Space Vector PWM Control Algorithm”, European Journal of Scientific Research Vol. 56 No 4 (2011), pp. 462 – 470. http://www.eurojou
Keywords
custom power devices, power quality