Energy and reserve scheduling under correlated nodal demand uncertainty: An adjustable robust optimization approach

Date Published
03/2015
Publication Type
Journal Article
Authors
DOI
10.1016/j.ijepes.2015.02.015
Abstract

This paper presents a nonparametric approach based on adjustable robust optimization to consider correlated nodal demand uncertainty in a joint energy and reserve scheduling model with security constraints. In this model, up- and down-spinning reserves provided by generators are endogenously defined as a result of the optimization problem. Adjustable robust optimization is used to characterize the worst-case load variation under a given user-defined uncertainty set. This paper differs from recent previous work in two respects: (i) nonparametric correlations between nodal demands are accounted for in the uncertainty set and (ii) based on the binary expansion linearization approach, a mixed-integer linear model is provided for the optimization related to the worst-case demand. The resulting problem is formulated as a trilevel program and solved by means of Benders decomposition. Empirical results suggest that the effect of nodal correlations can be effectively captured by the robust scheduling model.

Journal
International Journal of Electrical Power & Energy Systems
Volume
72
Year of Publication
2015
Pagination
91 - 98
ISSN Number
01420615
URL
Short Title
International Journal of Electrical Power & Energy Systems
Refereed Designation
Refereed
Organizations
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