IJREE – Volume 3 Issue 3 Paper 2

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WIND FARM CONDUSED PRIMARY LOAD FREQUENCY CONTROL FOR MULTI-AREA POWER SYSTEM WITH ETHERIZING LOAD FREQUENCY

Author’s Name : Aswini B | Pradeep R

Volume 03 Issue 03  Year 2016  ISSN No: 2349-2503  Page no: 10-14

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Abstract:

Electrical energy concurrent which cannot be stored so must be utilized as soon as it is generated. Therefore it requires an effective balance of power flow within multi area power system. This paper studies about a two area system [Hydro power plant & PMSG based Wind energy conversion system] which is connected through a tie line. Due to the rapid fluctuation in the wind power it causes disturbance in frequency which affects the active power of the system. To overcome this problem tie line must be stabilized using load frequency control in both the areas of power system. The simulation results for proving the efficiency of PLFC are illustrated. This is achieved by embedding PLFC in PMSG control system for both the area of power system.

Keywords:

hydro power plant, wind farm, multi- area power system, primary load frequency control.

References:

  1. Rosyadi.M,  Umemura.A,  Takahashi.R,  Tamura.J “Damping Load Frequency in Multi-area Power System using Wind Farm Cooperated Primary Load Frequency Control” IET conference paper(2014).
  2. Akhmatov.V,  Knudsen.H,  Hejde Nielsen.A,  Kaas Pedersen.J, and Kjølstad Poulsen.N, “Modelling and transient stability of large wind farms,” International Journal of Electrical  Power and Energy Systems, vol.25, no. 2, pp. 123–144, (2003).
  3. Muljadi.E, Butterfield.C,  Parsons.B, and  Ellis.A, “Effect of variable speed wind turbine generator on stability of a weak grid,” IEEE Transactions on Energy Conver Jauch C, Matevosyan J, Ackermann T, and Bolik S.: “International comparison of requirements for connection of wind turbines to power systems”, Wind Energy, Vol. 8. No. 3, pp. 295-306 (2005). 
  4. Cardenaes.R, Pena.R, Asher.G, and Clare.J: “Power smoothing in wind generation system using a sensor less vector controlled induction machine driving a flywheel”, IEEE Transaction on Energy Conversation, Vol 19.Issue. 1. pp. 206-216 (2004).
  5. Bhim Singh and Gaurav Kumar Kasal, “Solid-State Voltage and Frequency Controller for a stand alone wind power generating system,”IEEE Trans. Power Electronics, vol. 23, no.3, pp.1170–1177, 2008.
  6. Rajveer Mittal, K.S.Sandhu and D.K.Jain “An Overview of Some Important Issues Related to Wind Energy Conversion System (WECS)” International Journal of Environmental Science and Development, Vol. 1, No. 4, October 2010 ISSN: 2010-0264.
  7. Hardan.F, Bleijs.J.A.M, Jones.R, Bromle.P, and Ruddel.A.J: “Application of a power controlled flywheel drive for wind power conditioning in a wind/diesel power system,” The 9th International conference on Electrical Machines and Drive, paper No. 468, pp. 65 –70. (1999).
  8. Sheikh.M.R.I, Muyeen.S.M, Takahashi.R, and Tamura.J: “Smoothing Control of Wind Generator Output Fluctuations by PWM Voltage Source Converter and Chopper Controlled SMES,” European Trans. Electrical Power, Vol. 21, Issue-1, pp. 680-697 (2011).
  9. Zhang.L,Shen.C, Crow.M.L, Dong.L, Pekarek.S, and Atcitty.S: “Performance indices for the dynamic performance of FACTS and FACTS with energy storage,” Elect. Power Compon. Syst., Vol. 33, No. 3, pp. 299–314 (2005).
  10. Praba kundur, Power system stability and control, Mc Graw-hill, Inc, 1994.
  11. Muyeen.S.M, Ali.M.H, Takahashi.R, Murata.T, and Tamura.J, “Wind generator output power smoothing and terminal voltage regulation by using STATCOM/BESS,” The IEEE Power tech 2007 Conference, Ref No. 258, Lausanne, Switzerland,(2007).
  12. Ackermann, T, “Wind Power in Power System”, Chichester, UK, John Wiley & Sons, 2012.
  13. Hongqing Fang, Long Chen, Nkosinathi Dlakavu, and Zuyi Shen, “Basic Modeling and Simulation Tool for Analysis of Hydraulic Transients in Hydroelectric Power Plants”, IEEE Transactions on Energy Conversion, VOL. 23, NO. 3, SEPTEMBER 2008.
  14. W. J. Bonwick and V. H. Jones, “Performance of a synchronous generator with abridge rectifier,” Proceedings IEE, Vol. 119, No. 9, September 1972, pp. 1338-1342.
  15. Akhmatov.V, Analysis of dynamic behaviour of electric power systems with large amount of wind power. PhD thesis, Electric Power Engineering, Oersted-DTU, Technical University of Denmark, 2003. A available at http://www.studentpraest.dtu.dt/upload/centre/cet/projeter /05-va-thesis.pdf