OPTIMAL COOPERATIVE DEMAND RESPONSE SCENARIO FOR SYSTEM CONGESTION

Shinq-Jen Wu, Hoach The Nguyen, and Wei-Che Chien

References

  1. [1] M.H. Albadi and E.F. El-Saadany, A summary of demand response in electricity markets, Electric Power Systems Research, 78, 2008, 1989–1996, ISSN 0378-7796.
  2. [2] E. Bompard, Y. Ma, R. Napoli, G. Abrate, The demand elasticity impacts on the strategic bidding behavior of the electricity producers, IEEE Transactions on Power Systems, 22(1), Feb. 2007, 188–197.
  3. [3] K. Spees and L.B. Lave, Demand response and electricity market efficiency, The Electricity Journal, 20(3), 2007, 69–85.
  4. [4] M. Lommerdal and L. Soder, Combination of two methods for congestion management, IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies (DRPT2004), Hong Kong, 2004.
  5. [5] P. Faria and Z. Vale, Demand response in electrical energy supply: An optimal real time pricing approach, Energy, 36, August 2011, 5374–5384.
  6. [6] F. Milano, PSAT, Matlab-based power system analysis toolbox, available at http://faraday1.ucd.ie/psat.html.
  7. [7] F.F. Wu, P. Varaiya, Coordinated multilateral trades for electric power networks: Theory and implementation, International Journal of Electrical Power & Energy Systems, 21, February 1999, 75–102.
  8. [8] M. Lommerdal and L. Soder, Combination of two methods for congestion management, IEEE International Conference on Electric Utility Deregulation, Restructuring and Power Technologies (DRPT2004), Hong Kong, 2004.
  9. [9] Thilo Krause, Congestion management in liberalized electricity markets: Theoretical concepts and international application (Zurich: EEH–Power Systems Laboratory, Eidgen˝ossische Technische Hochschule, May 2005).
  10. [10] W.W. Hogan, Contract networks for electric power transmission, Journal of Regulatory Economics, 4, 1992, 211–242.
  11. [11] S.N. Singh and K. David, Congestion management in dynamic security constrained open power markets, Computers and Electrical Engineering, 29, 2003, 575–588.
  12. [12] F.C. Schweppe, M.C. Caramanis, R.D. Tabor, and R.E. Bohn, Spot pricing of electricity (Boston, MA: Kluwer Academic Publisher, 1988).
  13. [13] M. Lu, Z. Lu, Z.Y. Dong, and T.K. Saha, A novel approach to evaluate congestion of composite power system planning in a competitive electricity market, IEEE Power Engineering Society General Meeting, Montreal, Que., 2006.
  14. [14] Xiao Luo,Chi-yung Chung, Hongming Yang and Xiaojiao Tong, Robust optimization-based generation self-Scheduling under uncertain price, Mathematical Problems in Engineering, 2011, 2011, Article ID 497014.
  15. [15] http://www.ee.washington.edu/research/pstca/
  16. [16] H. Wang, C.E. Murillo-Sanchez, R.D. Zimmerman, and R.J. Thomas, On computational issues of market-based optimal power flow, IEEE Transactions on Power Systems, 22(3), 2007, 1185–1193.
  17. [17] R.D. Zimmerman, C.E. Murillo-Sanchez, and R.J. Thomas, Matpower’s extensible optimal power flow architecture, IEEE Power and Energy Society General Meeting, 2009, 1–7.
  18. [18] R.D. Zimmerman, C.E. Murillo-S_anchez, and R.J. Thomas, Matpower: Steady-state operations, planning and analysis tools for power systems research and education, IEEE Transactions on Power Systems, 26(1), 2011, 12–19.
  19. [19] http://www.pserc.cornell.edu/matpower

Important Links:

Go Back