Abstract
Currently, optimization models for the safe and reliable operation of power systems deal with two major challenges: the first one is the reduction of the computational load when considering N−1 contingencies; the second one is the adequate modeling of the uncertainty of intermittent generation and demand. This paper proposes a new affinely adjustable robust model to solve the security constrained unit commitment problem considering these sources of uncertainty. Linear decision rules, which take into account the forecasts and forecast errors of the different sources of uncertainty, are used for the affine formulation of the dispatch variables, thus allowing the tractability of the model. Another major novelty is that the evaluation of the N−1 security constraints is performed by incorporating a novel method, proposed in the literature, based on the user-cuts concept. This method efficiently and dynamically adds only the binding N−1 security constraints, increasing the computational efficiency of the model when transmission line contingencies are considered. Finally, Monte Carlo simulations on the post-optimization results were run to demonstrate the effectiveness, feasibility and robustness of the solutions provided by the proposed model.
Highlights
Nowadays, the planning and operation of power generation systems worldwide relies on optimization models
The first one captures the behavior of the objective function (OF) and running time based on known uncertainties of past time periods, considered in our adjustable robust optimization (AARO)-Security Constrained Unit Commitment (SCUC) model
Long computing times are obtained in this system for t − 6 ≤ τ because we assume that all buses have uncertain loads, something that considerably increases the computational complexity of the AARO-SCUC model
Summary
Juan Esteban Sierra-Aguilar 1 , Cristian Camilo Marín-Cano 1 , Jesús M.
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