ENHANCING THE MAXIMUM LOADABILITY OF RADIAL DISTRIBUTION SYSTEM BY NETWORK RECONFIGURATION

S. Satyanarayana, S.T. Ramana, S. Sivanagara ju, and G.K. Rao

References

  1. [1] S. Sivanagaraju, N. Srinivasulu, & M. Vijayakumar, Voltagestability for radial distribution networks, Journal of Institutionof Engineers (India), EL-84, 2003, 166–172.
  2. [2] G.B. Jasmon & L.H.C.C. Lee, Distribution network reductionfor voltage stability analysis and load flow calculations, In-ternational Journal of Electrical Power and Energy Systems,13(1), 1991, 9–13.
  3. [3] F. Gubina & B. Strmcnik, A simple approach to voltagestability assessment in radial networks, IEEE Transaction onPower Systems, 12(3), 1997, 1121–1128.
  4. [4] M.J.H. Sterling, A.M. Chebbo, & M.R. Irving, Reactive powerdispatch incorporating voltage stability, IEE Proceedings –Generation, Transmission and Distribution, 139(3), 1992, 253–260.
  5. [5] M.A. Kashem, V. Ganapathy, & G.B. Jasmon, Network recon-figuration for enhancement of voltage stability in distributionnetworks, IEE Proceedings – Generation, Transmission andDistribution, 147(3), 2000, 171–175.
  6. [6] D. Shirmohamaddi & H.W. Hong, Reconfiguration of electricdistribution networks for resistive line losses reduction, IEEETransaction on Power Delivery, 4(2), 1989, 1492–1498.
  7. [7] S.K. Goswami & S.K. Basu, A new algorithm for the recon-figuration of distribution feeders for loss minimization, IEEETransaction on Power Delivery, 7(3), 1992, 1484–1491.
  8. [8] G.P. Peponis, M.P. Papadopoulous, & N.D. Hatziargyriou,Distribution networks reconfiguration to minimize resistiveline losses, IEEE Transaction on Power Delivery, 10, 1995,1338–1342.
  9. [9] M.A. Kashem, V. Ganapathy, G.B. Jasmon, & M.I. Buhari,A novel method for loss minimization in distribution net-works, Proc. International Conf. Electric Utility DeregulationRestructuring Power Technology, London, UK, 2000, 251–255.
  10. [10] M.E. Baran & F.F. Wu, Network reconfiguration in distri-bution systems for loss reduction and load balancing, IEEETransaction on Power Delivery, 4(2), 1989, 1401–1407.
  11. [11] V. Ajjarapu & B. Lee, Bibliography on voltage stability, IEEETransaction on Power Systems, 13(1), 1998, 115–125.
  12. [12] G. Brownell & H. Clark, Analysis and solution for bulksystem voltage instability, IEEE Transaction on ComputerApplications Power, 2(3), 1989, 31–35.
  13. [13] W.R. Lachs & D. Sutanto, Different types of voltage instability,IEEE Transaction on Power Sysems, 9(2), 1994, 1126–1134.
  14. [14] B. Venkatesh, G. Sadasivam, & M.A. Khan, A new optimalreactive power scheduling method for loss minimization andvoltage stability margin maximization using successive multi-objective fuzzy LP technique, IEEE Transaction on PowerSystems, 15, 2000, 844–851.
  15. [15] C.W. Taylor, Power system voltage stability (EPRI PowerSystem Engineering Series) (New York: McGraw-Hill, 1994).
  16. [16] M. Ponnavaikko & K.S. Prakasa Rao, Optimal distributionsystem planning, IEEE Transaction on Power Apparatus andSystems, 100(6), 1981, 2969–2975.
  17. [17] S. Civanlar, J.J. Grainger, H. Yin, & S.S.H. Lee, Distributionfeeder reconfiguration for loss reduction, IEEE Transaction onPower Delivery, 3(4), 1988, 1217–1223.
  18. [18] M.E. Baran & F.F. Wu, Network reconfiguration in distri-bution systems for loss reduction and load balancing, IEEETransaction on Power Delivery, 4(2), 1989, 1401–1407.

Important Links:

Go Back