Parameterization of linear supply functions in nonlinear AC electricity market equilibrium models - Part II: Case studies

This study utilizes the primal-dual nonlinear interior point algorithm formulated in Part I of this two-series paper, to obtain electricity market supply function equilibrium solutions for the bi-level market problem of nonlinear power systems with AC meshed networks. The strategic offers of the market players are modeled by parameterizing the generation marginal cost functions using any of the four available parameterization methods to obtain profit-maximizing linear supply function bids. The analysis takes into account a variety of test systems and examines the relation between the equilibrium solutions obtained from the different parameterization methods and the role of network complexity. An analysis of multiple equilibria in AC network constrained systems is also provided.

[1]  Benjamin F. Hobbs,et al.  Understanding how market power can arise in network competition: a game theoretic approach , 1999 .

[2]  R. Green,et al.  Increasing Competition in the British Electricity Spot Market , 1996 .

[3]  Goran Strbac,et al.  Fundamentals of Power System Economics: Kirschen/Power System Economics , 2005 .

[4]  Daniel Ralph,et al.  Using EPECs to Model Bilevel Games in Restructured Electricity Markets with Locational Prices , 2007, Oper. Res..

[5]  H. Haghighat,et al.  Gaming analysis in joint energy and spinning reserve markets , 2007, 2008 IEEE Power and Energy Society General Meeting - Conversion and Delivery of Electrical Energy in the 21st Century.

[6]  S. G. Petoussis,et al.  Parameterization of Linear Supply Functions in Nonlinear AC Electricity Market Equilibrium Models—Part I: Literature Review and Equilibrium Algorithm , 2013, IEEE Transactions on Power Systems.

[7]  Tao Li,et al.  Strategic bidding of transmission-constrained GENCOs with incomplete information , 2005, IEEE Transactions on Power Systems.

[8]  K.P. Wong,et al.  A coevolutionary approach to analyzing supply function equilibrium model , 2006, IEEE Transactions on Power Systems.

[9]  I. Hiskens,et al.  Searching for noncooperative equilibria in centralized electricity markets , 2003 .

[10]  R. Baldick Electricity Market Equilibrium Models: The Effect of Parameterization , 2002, IEEE Power Engineering Review.

[11]  Youfei Liu,et al.  Impacts of Network Constraints on Electricity Market Equilibrium , 2007, IEEE Transactions on Power Systems.

[12]  M. L. Baughman,et al.  An Empirical Study of Applied Game Theory: Transmission Constrained Cournot Behavior , 2002, IEEE Power Engineering Review.

[13]  Zhang Shao-hua,et al.  Oligopolistic equilibrium analysis for electricity markets: a nonlinear complementarity approach , 2004 .

[14]  R. Baldick,et al.  Hybrid coevolutionary programming for Nash equilibrium search in games with local optima , 2004, IEEE Transactions on Evolutionary Computation.

[15]  D. Kirschen,et al.  Fundamentals of power system economics , 1991 .