Vol. 1 No. 2 (2021): Journal of Millimeterwave Communication, Optimization and Modelling
Articles

Modeling of Windmills for Improving Voltage Stability in Distribution Network

Wesam Anis Elmasudi
University of Karabük
indexed journal communication engineering

Published 31.12.2021

Keywords

  • voltage stability,
  • distribution system,
  • penetration level,
  • buses

Abstract

The most important factor in the power system is to provide stable and smooth electricity to the consumers in front of the big increase in the usage of the renewable energy, especially, wind power farms. This paper will study the effects of wind energy units on voltage stability in distribution networks. We will consider that the wind farms are connected to different locations of the unit to see how far the contribution of wind farms on the voltage stability is.

References

  1. R.B. Prade and LJ. Souza, "Voltage stability and thermal limit:constraints on the maximum loading of electrical energy distribution feeders," lEE Proceedings-Generation, Transmission and Distribution,vo1.l45, Issue 5, pp.573-577, September 1998.
  2. Haiyan.Chen, Jinfu.Chen, Dongyuan.Shi, ianzhong.Duan, "Power flow study and voltage stability analysis for distribution systems with distributed generation," IEEE Power Engineering Society General Meting, June 2006.
  3. Thomas. Ackermann, Goran. Andersson, Lennart. Soder, "Distributed generation: a definition," Electric Power Systems Research, vo1.57, ppI95-204, December 2000.
  4. J.V. Milanoic, T.M. David., "Stability of distribution networks with embedded generators and induction motors," IEEEIPES Winter Meeting, 2002.voI.2, pp.1023-1028.
  5. "Technical requirements for connection of dispersed generating systems operating in parallel on the distribution network," Document CIO/II of the FPE/BFE, May 2002.
  6. V.Thong, J.Driesen, R.Belmans, "Transmission system operation concerns with high penetration level of distributed generation, UPEC 2007”.
  7. T.K.A.Rahman, S.R.A.Rahim, LMusirin, "Implementation of embedded generation for voltage regulation and loss minimization in distribution system," International Journal of Engineering and Technology, vol.l , no.! , 2004, pp.!-12 .
  8. S.Conti, S.Raiti, G.Tina, "Small-scale embedded generation effect on voltage profile: an analytical method," Proc.IEE Gen.Trans.Dist, vo1.l50, no.J , 2003, pp.78-86.
  9. Le.Thu Ha, T. K. Saha, " Investigation of power loss and voltage stability limits for large wind farm connections to a subtransmission network," in Proc.2004, IEEE Power Engineering Society General Meeting ,voI.2, pp.2251-2256 .
  10. V.Akhmatov, P.B.Eriksen, "A Large wind power system in almost island operation-a danish case study," IEEE Transaction on Power System, vo1.22, no.3, August 2007.
  11. S.N.Liew, G.Strbac, "Maximising penetration of wind generation in existing distribution networks," lEE Proc-Gener.Transm.Distrib, vo1.l49, no.3, May 2002.
  12. G.B. Jasmon, Lee, L.H.C.C, "New contingency ranking technique incorporating a voltage stability criterion, .. lEE ProceedingsGeneration, Transmission and Distribution, vol. 140, no 2, March 1993.
  13. Liu. Jiang, Bi. Pengxiang, "The reduced analysis and optimization for distribution network," Electric Power Publishing company in Beijing, China, 2002.
  14. Chebbo, MJrving and M. Sterling, "Voltage collapse proximity indicator: Behaviour and implications," lEE Proc, Pt. C, vol 139, no. 3, May 1992, pp.241-252.
  15. United Kingdom Generic Distribution System. http://monaco.eee.strath.ac.uk/ukgds/ ,2006.