Relaxations for multi-period optimal power flow problems with discrete decision variables

Relaxations for multi-period optimal power flow problems with discrete decision variables

We consider a class of optimal power flow (OPF) applications where some loads offer a modulation service in exchange for an activation fee. These applications can be modeled as multi-period formulations of the OPF with discrete variables that define mixed-integer non-convex mathematical programs. We...

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Hauptverfasser: Gemine, Quentin, Ernst, Damien, Louveaux, Quentin, Cornélusse, Bertrand
Format: Artikel
Sprache:eng
Schlagworte:
Mathematics - Optimization and Control
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Zusammenfassung:We consider a class of optimal power flow (OPF) applications where some loads offer a modulation service in exchange for an activation fee. These applications can be modeled as multi-period formulations of the OPF with discrete variables that define mixed-integer non-convex mathematical programs. We propose two types of relaxations to tackle these problems. One is based on a Lagrangian relaxation and the other is based on a network flow relaxation. Both relaxations are tested on several benchmarks and, although they provide a comparable dual bound, it appears that the constraints in the solutions derived from the network flow relaxation are significantly less violated.
DOI:10.48550/arxiv.1401.1105