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Year 2014, Volume: 14 Issue: 2, 1817 - 1823, 25.03.2015

Abstract

References

  • T. Ackerman, G. Anderson, L. Soder, “Distributed generation: a definition,” Elsevier Sci. 195–204, 2003.
  • D. Zhu, R.P. Broadwater, K. Tam, R. Seguin, H. Asgeirsson, “ Impact of DG placement on reliability and efficiency with time-varying loads,” IEEE Transactions on Power Systems 21 (1) , 419–427, 2006.
  • “Distributed Energy Resources Guide,” The California Energy Commission, 2003. [Online]. Available: http://www.energy.ca.gov/ .
  • “Wind power systems,” in Encyclopedia of Physical Science and Technology, 3rd ed. New York: Academic, 200 Y.T. Hsiao, C.Y. Chien , “ Multiobjective optimal feeder reconfiguration ,” IEE Proceedings Generation, Transmission and Distribution, 148(4):333–336, 2001.
  • H. Merlin, “Search for a minimal-loss operating spanning tree configuration in an urban power distribution system,” in: Proceedings of the Fifth Power System Computation Conference, Cambridge, UK, pp. 1–18, 2008.
  • S. Civanlar, J.J. Grainger, H. Yin, S.S.H. Lee, “Distribution feeder reconfiguration for loss reduction,” IEEE Trans Power Deliver; 3(4):1217–23, 2010.
  • K. Aoki, H. Kawabara, T. Satoh, M. Kanezashi, “An efficient algorithm for load balancing of transformers and feeders,” IEEE Trans Power Deliver; 3(4):1865–72, 200
  • G. Celli, E. Ghiani, S. Mocci, F. and Pilo, F., “A multiobjective evolutionary algorithm for the sizing and siting of distributed generation,” IEEE Trans. Power Syst., vol. 20, no. 2, pp. 750–757, May 2009.
  • T. Taylor, D. Lubkeman, “Implementation of heuristic search strategies for distribution feeder reconfiguration,” IEEE Trans. Power Del, vol. 5, pp. 239 – 245, 1990.
  • P. Agalgaonkar, S.V. Kulkarni, S.A. Khaparde, S.A. Soman, “Placement and penetration of distributed generation under standard market design,” Int J Emerg Electr Power Syst;1(1), 2004.
  • J. Olamaie, T. Niknam, G. Gharehpetion, “Application of particle swarm optimization for distribution feeder reconfiguration considering distributed generators,” Appl Math Comput ;20(1):575– 86, 2008.
  • J.M. Morales, J. Perez-Ruiz, “Point estimate schemes to solve the probabilistic power flow,” IEEE Transactions on Power System, vol. 22, pp. 1594-1601, .200
  • R. Billinton, and P. Wang, “Teaching Distribution System Reliability Evaluation Using Monte Carlo Simulation,” IEEE Transactions on Power Systems, vol. 14, no. 2, pp. 397-403, May 1999.
  • A. Soroudi, M. Ehsan, R. Caire, N. Hadjsaid, “Possibilistic evaluation of distributed generations Impacts on distribution networks,” IEEE Trans on Power Syst, vol. 26, pp. 2293 – 2301, 2011.
  • X.S. Yang, “Nature-Inspired Metaheuristic Algorithms,” Frome: Luniver Press. ISBN 1905986106, 2008.
  • T. Apostolopoulos, A. Vlachos, “Application of the Firefly Algorithm for Solving the Economic Emissions Load Dispatch Problem,” International Journal of Combinatorics, ID: 523806, 2011.
  • Y.P. Cai, G.H. Huang, Z.F. Yang, Q. Tan, “Identification of optimal strategies for energy management systems planning under multiple uncertainties,” Appl Energy 9;86(4):480–95, 2009.
  • R.R. Tan, K.B. Aviso, I.U. Barilea, A.B. Culaba, J.B. Cruz, “ A fuzzy multi-regional input-output optimization model for biomass production and trade under resource and footprint constraints,”Appl Energy, in press. ISSN: 030626
  • M.E. Baran, F.F. Wu, “ Network reconfiguration in distribution systems for loss reduction and load balancing,” IEEE Trans on Power Del, vol. 4, pp. 1401 – 1407, 1989.
  • T. Niknam, “An efficient hybrid evolutionary based on PSO and ACO algorithms for distribution feeder reconfiguration,” European Trans on Elect Power, vol. 20, pp. 575 – 590, 2010.
  • T. Niknam, S.I. Taheri , J. Aghaei, S. Tabatabaei, M. Nayeripour, “ A modified honey bee mating optimization algorithm for multiobjective placement of renewable energy resources,” Applied Energy , vol. 88 , pp. 4817-4830, 2011.
  • T.E. McDermott, I. Drezga, R.P. Broadwater, “A heuristic nonlinear constructive method for distribution system reconfiguration,” IEEE Trans on Power Sys, vol. 14, pp. 478 – 483, 1999.
  • S.Jr. Carneiro, J.L.R. Pereira, M.P. Vinagre, P.A.N. Garcia, L.R. Araujo, “ A New Heuristic Reconfiguration Algorithm for Large Distribution Systems,” IEEE Tran on Power sys, vol. 20 , pp. 1373 – 1378, 2005.
  • T. Niknam, A. Kavousifard, A. Seifi, “Distribution feeder reconfiguration considering fuel cell/wind/photovoltaic power Plants,” Journal of Renewable Energy, vol. 37, pp. 213-225, 2011.
  • D. Shirmohammadi, H.W. Hong, “Reconfiguration of electric distribution networks for resistive line loss reduction,” IEEE Trans, Power System, vol. 4, pp. 1492 – 1498, 1989.

Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction

Year 2014, Volume: 14 Issue: 2, 1817 - 1823, 25.03.2015

Abstract

In many countries the power systems are going to move toward creating a competitive structure for selling and buying electrical energy. This paper presents a new method based on Modified Firefly Optimization (MFO) algorithm to Distribution Feeder Reconfiguration (DFR) problems at the distribution networks considering Wind Turbines (WTs). The objectives consist of minimization of costs and losses of distributed system.  The effectiveness of the proposed algorithm is demonstrated through IEEE 32 bus standard test systems. Also, regarding the uncertainties of the new complicated power systems such as the active and reactive loads in addition to the wind speed variations effectively, in this paper for the first time, the DFR problem is investigated in a stochastic environment by the use of probabilistic load flow technique based on Point Estimate Method (PEM). The feasibility of the MFO algorithm and the proposed DFR is demonstrated and compared with the solutions obtained by other approaches and evolutionary methods.

References

  • T. Ackerman, G. Anderson, L. Soder, “Distributed generation: a definition,” Elsevier Sci. 195–204, 2003.
  • D. Zhu, R.P. Broadwater, K. Tam, R. Seguin, H. Asgeirsson, “ Impact of DG placement on reliability and efficiency with time-varying loads,” IEEE Transactions on Power Systems 21 (1) , 419–427, 2006.
  • “Distributed Energy Resources Guide,” The California Energy Commission, 2003. [Online]. Available: http://www.energy.ca.gov/ .
  • “Wind power systems,” in Encyclopedia of Physical Science and Technology, 3rd ed. New York: Academic, 200 Y.T. Hsiao, C.Y. Chien , “ Multiobjective optimal feeder reconfiguration ,” IEE Proceedings Generation, Transmission and Distribution, 148(4):333–336, 2001.
  • H. Merlin, “Search for a minimal-loss operating spanning tree configuration in an urban power distribution system,” in: Proceedings of the Fifth Power System Computation Conference, Cambridge, UK, pp. 1–18, 2008.
  • S. Civanlar, J.J. Grainger, H. Yin, S.S.H. Lee, “Distribution feeder reconfiguration for loss reduction,” IEEE Trans Power Deliver; 3(4):1217–23, 2010.
  • K. Aoki, H. Kawabara, T. Satoh, M. Kanezashi, “An efficient algorithm for load balancing of transformers and feeders,” IEEE Trans Power Deliver; 3(4):1865–72, 200
  • G. Celli, E. Ghiani, S. Mocci, F. and Pilo, F., “A multiobjective evolutionary algorithm for the sizing and siting of distributed generation,” IEEE Trans. Power Syst., vol. 20, no. 2, pp. 750–757, May 2009.
  • T. Taylor, D. Lubkeman, “Implementation of heuristic search strategies for distribution feeder reconfiguration,” IEEE Trans. Power Del, vol. 5, pp. 239 – 245, 1990.
  • P. Agalgaonkar, S.V. Kulkarni, S.A. Khaparde, S.A. Soman, “Placement and penetration of distributed generation under standard market design,” Int J Emerg Electr Power Syst;1(1), 2004.
  • J. Olamaie, T. Niknam, G. Gharehpetion, “Application of particle swarm optimization for distribution feeder reconfiguration considering distributed generators,” Appl Math Comput ;20(1):575– 86, 2008.
  • J.M. Morales, J. Perez-Ruiz, “Point estimate schemes to solve the probabilistic power flow,” IEEE Transactions on Power System, vol. 22, pp. 1594-1601, .200
  • R. Billinton, and P. Wang, “Teaching Distribution System Reliability Evaluation Using Monte Carlo Simulation,” IEEE Transactions on Power Systems, vol. 14, no. 2, pp. 397-403, May 1999.
  • A. Soroudi, M. Ehsan, R. Caire, N. Hadjsaid, “Possibilistic evaluation of distributed generations Impacts on distribution networks,” IEEE Trans on Power Syst, vol. 26, pp. 2293 – 2301, 2011.
  • X.S. Yang, “Nature-Inspired Metaheuristic Algorithms,” Frome: Luniver Press. ISBN 1905986106, 2008.
  • T. Apostolopoulos, A. Vlachos, “Application of the Firefly Algorithm for Solving the Economic Emissions Load Dispatch Problem,” International Journal of Combinatorics, ID: 523806, 2011.
  • Y.P. Cai, G.H. Huang, Z.F. Yang, Q. Tan, “Identification of optimal strategies for energy management systems planning under multiple uncertainties,” Appl Energy 9;86(4):480–95, 2009.
  • R.R. Tan, K.B. Aviso, I.U. Barilea, A.B. Culaba, J.B. Cruz, “ A fuzzy multi-regional input-output optimization model for biomass production and trade under resource and footprint constraints,”Appl Energy, in press. ISSN: 030626
  • M.E. Baran, F.F. Wu, “ Network reconfiguration in distribution systems for loss reduction and load balancing,” IEEE Trans on Power Del, vol. 4, pp. 1401 – 1407, 1989.
  • T. Niknam, “An efficient hybrid evolutionary based on PSO and ACO algorithms for distribution feeder reconfiguration,” European Trans on Elect Power, vol. 20, pp. 575 – 590, 2010.
  • T. Niknam, S.I. Taheri , J. Aghaei, S. Tabatabaei, M. Nayeripour, “ A modified honey bee mating optimization algorithm for multiobjective placement of renewable energy resources,” Applied Energy , vol. 88 , pp. 4817-4830, 2011.
  • T.E. McDermott, I. Drezga, R.P. Broadwater, “A heuristic nonlinear constructive method for distribution system reconfiguration,” IEEE Trans on Power Sys, vol. 14, pp. 478 – 483, 1999.
  • S.Jr. Carneiro, J.L.R. Pereira, M.P. Vinagre, P.A.N. Garcia, L.R. Araujo, “ A New Heuristic Reconfiguration Algorithm for Large Distribution Systems,” IEEE Tran on Power sys, vol. 20 , pp. 1373 – 1378, 2005.
  • T. Niknam, A. Kavousifard, A. Seifi, “Distribution feeder reconfiguration considering fuel cell/wind/photovoltaic power Plants,” Journal of Renewable Energy, vol. 37, pp. 213-225, 2011.
  • D. Shirmohammadi, H.W. Hong, “Reconfiguration of electric distribution networks for resistive line loss reduction,” IEEE Trans, Power System, vol. 4, pp. 1492 – 1498, 1989.
There are 25 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Reza Sedaghatı

Ahmad Rohanı This is me

Yaser Nematı This is me

Navid Javıdtash This is me

Ali Heydarjedagan This is me

Hossein Sedaghatı This is me

Publication Date March 25, 2015
Published in Issue Year 2014 Volume: 14 Issue: 2

Cite

APA Sedaghatı, R., Rohanı, A., Nematı, Y., Javıdtash, N., et al. (2015). Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction. IU-Journal of Electrical & Electronics Engineering, 14(2), 1817-1823.
AMA Sedaghatı R, Rohanı A, Nematı Y, Javıdtash N, Heydarjedagan A, Sedaghatı H. Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction. IU-Journal of Electrical & Electronics Engineering. March 2015;14(2):1817-1823.
Chicago Sedaghatı, Reza, Ahmad Rohanı, Yaser Nematı, Navid Javıdtash, Ali Heydarjedagan, and Hossein Sedaghatı. “Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction”. IU-Journal of Electrical & Electronics Engineering 14, no. 2 (March 2015): 1817-23.
EndNote Sedaghatı R, Rohanı A, Nematı Y, Javıdtash N, Heydarjedagan A, Sedaghatı H (March 1, 2015) Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction. IU-Journal of Electrical & Electronics Engineering 14 2 1817–1823.
IEEE R. Sedaghatı, A. Rohanı, Y. Nematı, N. Javıdtash, A. Heydarjedagan, and H. Sedaghatı, “Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction”, IU-Journal of Electrical & Electronics Engineering, vol. 14, no. 2, pp. 1817–1823, 2015.
ISNAD Sedaghatı, Reza et al. “Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction”. IU-Journal of Electrical & Electronics Engineering 14/2 (March 2015), 1817-1823.
JAMA Sedaghatı R, Rohanı A, Nematı Y, Javıdtash N, Heydarjedagan A, Sedaghatı H. Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction. IU-Journal of Electrical & Electronics Engineering. 2015;14:1817–1823.
MLA Sedaghatı, Reza et al. “Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction”. IU-Journal of Electrical & Electronics Engineering, vol. 14, no. 2, 2015, pp. 1817-23.
Vancouver Sedaghatı R, Rohanı A, Nematı Y, Javıdtash N, Heydarjedagan A, Sedaghatı H. Implementation of New Stochastic Algorithm of Network Reconfiguration in Distribution Systems for Losses and Costs Reduction. IU-Journal of Electrical & Electronics Engineering. 2015;14(2):1817-23.