Optimal Pricing of Electricity in Restructured Electricity Market

  • Authors

    • V. G.Umale
    • Dr. S.B.Warkad
    • S. Wadhankar
    • H. S.Sakhare
    2018-09-22
    https://doi.org/10.14419/ijet.v7i4.5.20189
  • locational marginal pricing, optimal power flow, transmission pricing, optimization, congestion market
  • An effective pricing scheme that to provide the useful information to generation, transmission section and customers. These transmission pricing depends on generator, load levels and transmission line constraints. Transmission line constraints result is variations in energy prices throughout the network. The proposed approach is based on AC-DC optimal power flow model with considering of losses. Resulting optimization problem is solved by linear programming approach. Locational Marginal Pricing methodology is used to determine the energy price for transacted power and to manage the network congestion and marginal losses. Variation of LMP values with transmission constraint conditions also studied. Simulation is carried out on IEEE 57 bus system, 400/765kV MSETCL system of Maharashtra transmission line for real data bus system and the results are presented.

     

     

     
  • References

    1. [1] R. Weron, "Electricity price forecasting: A review of the state-of-the-art with a look into the future", Int. J. Forecast., vol. 30, no. 4, pp. 1030- 1081, Oct. 2014.

      [2] A. J. Conejo, M. Carrion, J. M. Morales, Decision Making Under Uncertainty in Electricity Markets, New York, NY USA: Springer, 2010.

      [3] Williams J., Ghanadan R., “Electricity reform in developing and transition countries: A reappraisalâ€, Energy 31, pp. 815–844, 2006.

      [4] Zhang Y.F., Parker D., and Kirkpatrick C., “Electricity Sector Reform in Developing Countries: an econometric assessment of the effects of privatization, competition and regulationâ€, working paper no. 31, Aston Business School Research Institute, Aston University, Birmingham B4 7ET, November 2002.

      [5] Bacon, R. W. and J. Besant-Jones, “Global Electric Power Reform, Privatization and Liberalisation of the Electric Power Industry in Developing Countriesâ€, Annual Review of Energy & the Environment, no. 26, pp. 331-359, 2001.

      [6] F. C. Schweppe, M. C. Caramis, R. D. Tabors, R. E. Bohn, Spot Pricing of Electricity, Kluwer Academic Publishers, Boston, p.384, 1988.

      [7] M. Rivier and I. J. Perez-Ariaga, “Computation and decomposition of spot price far transmission pricing," in 11th PSC conference, Avignon, Francia Agosto, pp. 39-46, 1993.

      [8] D. Finney, H. A. Othman, and W. L. Rutz, "Evaluating transmission congestion constraints in system planning," IEEE Transactions on Power Systems, vol. 12, no. 3, pp.1143-1150, August 1997.

      [9] P.D.C.Wijayatunga, B.J.Cory and M.J.Short, “Security and revenue reconciliation in optimal transmission pricingâ€, IEE Proc.-Generation, Transmssion, Distribution, vol. 146, no. 4, pp. 355-359, July 1999.

      [10] Kai Xie, Yong-Hua Song, John Stonham, Erkeng Yu, and Guangyi Liu, “Decomposition Model and Interior Point Methods for Optimal Spot Pricing of Electricity in Deregulation Environmentsâ€, IEEE Transactions on Power Systems, vol.1, no.1, pp. 39-50, February 2000.

      [11] G. Ward, N. R. Watson, C. P. Arnold, A. J. Turner, and B. J. Ring, “Inversion of Real Time Spot Prices in the Direction of Real Power Flow in a Transmission Lineâ€, IEEE Transactions on Power Systems, vol.15, no.4, pp. 1197-1203, November 2000.

      [12] Luonan Chen, Hideki Suzuki, Tsunehisa Wachi, and Yukihiro Shimura, “Components of Spot Prices for Electric Power Systemsâ€, IEEE Transactions on Power Systems, vol. 17, no.1, pp.41-49, February 2002.

      [13] P. Meliopoulos, S. Kang, G. Cokkinides, R. Dougal, “Animation and Visualization of Spot Prices via Quadratized Power Flow Analysisâ€, Proceedings of 36th Hawaii International conference on System Sciences (HICSS'03) - track 2, vol. 2, pp.49b, January 06-January 09, 2003.

      [14] Eugene Litvinov, Tongxin Zheng, Gary Rosenwald, and Payman Shamsollahi, “Marginal Loss Modeling in LMP Calculationâ€, IEEE Transactions on Power Systems, vol. 19, no. 2, pp.880-888, May 2004.

      [15] Tong Wu, Ziad Alaywan, and Alex D. Papalexopoulos, “Locational Marginal Price Calculations Using the Distributed-Slack Power-Flow Formulationâ€, IEEE Transactions on Power Systems, vol. 20, no. 2, pp.1188-1190, May 2005.

      [16] Antonio J. Conejo, Enrique Castillo, Roberto Mínguez, and Federico Milano, “Locational Marginal Price Sensitivitiesâ€, IEEE Transactions on Power Systems, vol. 20, no. 4, pp.2026-2033, November 2005.

      [17] Hugo A. Gil, Francisco D. Galiana, and Edson L. da Silva, “Spot Price Control: A Mechanism for Transmission Network Cost Allocationâ€, IEEE Transactions on Power Systems, vol.21, pp.3-10, February 2006.

      [18] [18] S.B.Warkad, Dr. M.K. Khedkar, Dr. G. M. Dhole, “Optimal Electricity Nodal Pricing in a Restructured Electricity Marketâ€, Journal of The Institution of Engineers (India), Volume 91, pp. 29-35, June 18, 2010.

      [19] Cervigni, G., & Perekhodtsev, D. (2013). “Wholesale Electricity Marketsâ€, In P. Rinci & G. Cervigni (Eds.), The Economics of Electricity Markets: Theory and Policy. Edward Elgar. 2013, Retrieved from http://www.eelgar.com/bookentry_main.lasso?id=14440.

      [20] William W. Hogan Mossavar-Rahmani Center for Business and Government John F. Kennedy School of Government Harvard University, “ELECTRICITY MARKET DESIGN: Optimization and Market Equilibriumâ€, Workshop on Optimization and Equilibrium in Energy Economics Institute for Pure and Applied Mathematics (IPAM), UCLA January 13, 2016

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    G.Umale, V., S.B.Warkad, D., Wadhankar, S., & S.Sakhare, H. (2018). Optimal Pricing of Electricity in Restructured Electricity Market. International Journal of Engineering & Technology, 7(4.5), 389-392. https://doi.org/10.14419/ijet.v7i4.5.20189