DAY-AHEAD OPTIMAL OPERATION PLANNING OF WIND AND HYDROTHERMAL GENERATION WITH OPTIMAL SPINNING RESERVE ALLOCATION

Clodomiro Unsihuay-Vila, Thiago Da Luz, and Erlon Finardi

References

  1. [1] J. Kiviluoma, M. O’Malley, A. Tuohy, P. Meibom, M. Milligan, B. Lange, H. Holttinen, and M. Gibescu, Impact of wind power on the unitcommitment, operating reserves, and market design, Proc. 2011 IEEE Power and Energy Society General Meeting, Renaissance Center in Detroit, Michigan, USA, 1–8.
  2. [2] H. Holttinen, Impact of hourly wind power variations on the system operation in the Nordic countries. Wind Energy, 8(2), 2005, 197–218.
  3. [3] A. Kalantari and F.D. Galiana, Generalized sigma approach to unit commitment with uncertain wind power generation, Electrical Power and Energy Systems, 65, 2015, 367–374.
  4. [4] J. Wang, M. Shahidehpour, and Z. Li, Security-constrained unit commitment with volatile wind power generation, IEEE Transactions on Power Systems, 23(3), August 2008, 1319–1327.
  5. [5] E.M. Constantinescu, V.M. Zavala, M. Rocklin, S. Lee, and M. Anitescu, A computational framework for uncertainty quantification and stochastic optimization in unit commitment with wind power generation, IEEE Transactions on Power Systems, 26(1), February 2011, 431–441.
  6. [6] A. Papavasiliou, S.S. Oren, and R. O’Neill, Multi-area stochastic unit commitment for high wind penetration in a transmission constrained network, Operations Research, 61(3), 2013, 578–592.
  7. [7] J. Wang, J. Wang, C. Liu, and J.P. Ruiz, Stochastic unit commitment with sub-hourly dispatch constraints, Applied Energy, 105, 2013, 418–422.
  8. [8] A. Tuohy, P. Meibom, E. Denny, and M. O’Malley, Unitcommitment for systems with high wind penetration, IEEETransactions on Power Systems, 24(2), May 2009, 592–601.
  9. [9] J.M. Morales, A.J. Conejo, and J. Perez-Ruiz, Economicvaluation of reserves in power systems with high penetration of wind power, IEEE Transactions on Power Systems, 24(2), May 2009, 900–910.
  10. [10] A. Kalantari, J.F. Restrepo, and F.D. Galiana, Security constrained unit commitment with wind power uncertainty: The loadability set approach. IEEE Transactions on Power Systems, 28(2), 2013, 1787–1796.
  11. [11] J.F. Restrepo and F.D. Galiana, Assessing the yearly impact of wind power through a new hybrid deterministic/stochastic unit commitment, IEEE Transactions on Power Systems, 26(1), 2011, 401–410.
  12. [12] H. Ding, Z. Hu, and Y. Song, Optimal intra-day coordination of wind farm and pumped-hydro-storage plant, IEEE PES General Meeting | Conference & Exposition, National Harbor, MD, 2014.
  13. [13] E.D. Castronuovo, J. Usaola, R. Bessa, M.A. Matos, I.C. Costa, et al. An integrated approach for optimal coordination of wind power and hydro pumping storage. Wind Energy, Wiley-Blackwell, 17(6), 2014, 829–852.
  14. [14] A. Shukla and S.N. Singh, Cluster based wind-hydro-thermal unit commitment using GSA algorithm, IEEE PES General Meeting | Conference & Exposition, Washington, DC, 2014.
  15. [15] L.V.L. Abreu, M.E. Khodayar, M. Shahidehpour, and L. Wu, Risk constrained coordination of cascaded hydro units with variable wind power generation, IEEE Transactions on Sustainable Energy, 3(3), July 2012, 359–368.
  16. [16] M. Karami, H.A. Shayanfar, J. Aghaei, and A. Ahmadi,Scenario-based security-constrained hydrothermal coordination with volatile wind power generation, Renewable and Sustainable Energy Reviews, 28, 2013, 726–737.
  17. [17] S. Kamalinia, L. Wu, and M. Shahidehpour, Midterm coordination of hydro and natural gas flexibilities for wind energy integration, IEEE Transactions on Sustainable Energy, 5(4), October 2014.
  18. [18] F.Y.K. Takigawa, E.C. Finardi, and E.L. da Silva. A decomposition strategy to solve the short-term hydrothermal scheduling based on Lagrangian relaxation. Journal of Algorithms and Optimization, 1(1), 2013, 13–24.
  19. [19] E.C. Finardi and E.L.da Silva, Solving the hydro unit commitment problem via dual decomposition and sequential quadratic programming, IEEE Transactions on Power Systems, 21(2), 2006, 835–844.

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