Two-Stage Robust Unit Commitment Problem with Complex Temperature and Demand Uncertainties
Abstract
In this paper, we present and study a robust unit commitment model and some variants that consider complex temperature and demand uncertainties. Since there is a strong relationship among the efficiency of gas generators, demand, and temperature in practical systems, our robust models have both left- and right-hand-side (LHS and RHS, respectively) uncertainties. Unlike many existing robust models with RHS uncertainty only, the introduction of LHS uncertainty imposes a huge challenge in computing robust solutions. For those complex formulations, we analyze their structures, derive important properties, and design exact and fast approximation solution strategies under the column-and-constraint generation framework. Numerical experiments are conducted on typical IEEE test systems, which showcase the great performance of our solution methods and demonstrate a clear impact of complex and correlated uncertainties in system operations.
Keywords
Cite
@article{arxiv.2206.09239,
title = {Two-Stage Robust Unit Commitment Problem with Complex Temperature and Demand Uncertainties},
author = {Wei Wang and Anna Danandeh and Brian Buckley and Bo Zeng},
journal= {arXiv preprint arXiv:2206.09239},
year = {2022}
}