Proportional Resonant Controlled Shunt Active Filter in IEEE Thirty Bus System with Improved Dynamic Time Response

 
 
 
  • Abstract
  • Keywords
  • References
  • PDF
  • Abstract


    This paper points on enhancing the dynamic time reaction of a Wind Energy- Conversion System (WE-CS) associated with IEEE thirty bus system utilizing Permanent Magnet-Synchronous Generator(PM-SG) in closed-loop controlled-active-power-filter with PR. This paper manages modeling and simulation of IEEE Thirty bus system utilizing PR based shunt active filter. The shunt active filter is actualized with voltage source inverter (VSI) and the switching pulses are produced utilizing PR controller. The simulation comes about are introduced to discover the impact of shunt active filter utilizing PR controller. Open loop controlled thirty bus system with change in voltage is reenacted. The simulation comes about with PI and PR controller based SAF are looked at and the relating time-domain parameters are exhibited. The outcomes show that PR Controller system has preferable reaction over PI controlled system.


  • Keywords


    ‘Shunt-Active-filter’, ‘IEEE-Thirty-bus-system’, ‘Proportional-Resonant Controller-(PRC)’, ‘PI-controller’, ‘Voltage-Source-Inverter’, ‘Reactive-power’, ‘Time-domain –parameters’, ‘Mat-lab’.

  • References


      [1] Akagi H. “-New trends in active-filters for power conditioning”. IEEE Trans Ind App 1996; 32(6) 1312–22.

      [2] H. Rudnick, Juan Dixon and Luis Moran, “ Active power filters as a solution to power quality problems in distribution networks, ” IEEE power & energy magazine, pp-32-40,Sept./Oct. -2003.

      [3] A. Mansoor, W.M. Gardy, P. T. Staats, R. S. Thallam, M. T. Doyle, and M. J. Samotyj, “Predicting the net harmonic current produced by large numbers of distributed single phase computer loads.” IEEE Trans. Power Delivery, Vol-10, pp- 2001-2006, 1994.

      [4] Parmod Kumar, and Alka Mahajan, “Soft Computing Technique for the control of an Active Power Filter,” IEEE Transaction on Power Delivery, Vol-24, No- 1, Jan -2009.

      [5] Suresh Mikkili, and A. K. Panda, “Performance analysis and real time implementation of shunt active filter current control strategy with type-1 and type-2 FLC triangular M.F,” International Transactions on Electrical Energy Systems,John Wiley, Vol-24, Issu-3, pp-347–362, Mar- 2014.

      [6] S.Bhattacharya and D.M.Divan, “Hybrid series active/parallel passive power line conditioner with controlled harmonic injection,” U. S. patent 5465 203, Nov-1995.

      [7] Bhim Singh, K. Al-Haddad, and A. Chandra, “A Review of Active Filters for Power Quality Improvement,” IEEE Trans. On I.E, Vol-46, No-5, Oct-1999.

      [8] Gyugyi L, Strycula E C. “Active power filters”, In Proceedings of IEEE/IAS Annual Meeting. -1976, -529-535.

      [9] ChaouiAbdelmadjid, KrimFateh, Gaubert Jean-Paul, Rambault Laurent. DPC controlled three-phase active-filter for power-quality-improvement.-Electrical Int Jour of Electrical Power Energy System -2008:30:476-85

      [10] SureshMikkili, Panda AK. “Real time implementation of PI&FLC based SHAF control strategies for power quality improvement”. Int Journal of Electrical Power Energy Systems 2012:43(1):1114- 26.

      [11] SureshMikkili, Panda AK. “PI and fuzzy logic controller based 3 phase 4 wire Shunt active filter for mitigation of Current harmonics with Id Iq control strategy”, J-Power-Electron (JPE) 2011:11(6):914-21.

      [12] Akagi H, Watanabe E H, Aredes M. “Instanteneous-Power-Theory and-Applications to power-Conditioning”. New Jersey: IEEE Press/Wiley-Interscience, 2007

      [13] L.A. Zadeh, “Fuzzy sets, Information and control” Vol- 8,pp- 338-353, -1965.


 

View

Download

Article ID: 22084
 
DOI: 10.14419/ijet.v7i4.19.22084




Copyright © 2012-2015 Science Publishing Corporation Inc. All rights reserved.