Title :
Supply function equilibrium with generation constraints solved through mixed-integer programming
Author :
El Khatib, Sameh ; Galiana, Francisco D.
Author_Institution :
McGill Univ., Montreal, QC, Canada
Abstract :
Supply function equilibrium (SFE) developed by Klemperer and Mayer is a popular approach to analyze market power and study gaming strategies in electricity markets. We extend the notion of SFE to the case where power generating companies own multiple generating units with asymmetric generation costs and upper and lower generation limits. Such a SFE is characterized by a set of differential equations subject to inequality constraints which can be expressed as a mixed-integer program (MIP). We then numerically solve and examine the behaviour of affine SFE with generation constraints by solving the defining MIP using standard MIP solvers. The behavior of the affine SFE exhibits enlightening and reasonable results when units switch from (or to) one of their generations limits.
Keywords :
differential equations; integer programming; power generation economics; asymmetric generation costs; differential equations; electricity markets; generation constraints; generation limits; inequality constraints; market power; mixed-integer programming; supply function equilibrium; Programming; Nash equilibrium; SFE simulations; affine supply function; capacity constraints; generation limits; mixed-integer programming; supply function equilibrium;
Conference_Titel :
Energy Market (EEM), 2010 7th International Conference on the European
Conference_Location :
Madrid
Print_ISBN :
978-1-4244-6838-6
DOI :
10.1109/EEM.2010.5558736
