Self-scheduling under ellipsoidal price uncertainty: conic-optimisation approach

Author

Jabr, Rabih A.

Author_Institution

Electr., Notre Dame Univ., Zouk Mosbeh

Volume

1

Issue

1

fYear

2007

fDate

1/1/2007 12:00:00 AM

Firstpage

23

Lastpage

29

Abstract

Power producers have to take decisions concerning their bidding strategy in the presence of uncertain prices. The paper addresses the problem of generator self-scheduling when locational marginal prices are subject to ellipsoidal uncertainty. A robust counterpart of the uncertain self-scheduling problem is formulated as a second-order cone program and solved using a commercially available interior-point package. The safety parameter, which trades between profit and risk, is determined based on a prespecified chance that the realised loss would be greater than the corresponding value at risk. Simulation results are presented on the IEEE 30-bus test system. A Monte Carlo simulation is used to compare the stability properties of the schedules obtained.

Keywords

Monte Carlo methods; optimisation; power generation economics; power generation scheduling; uncertain systems; IEEE 30-bus test system; Monte Carlo simulation; bidding strategy; conic-optimisation approach; ellipsoidal price uncertainty; generator self-scheduling; interior-point package; locational marginal prices; power producers; risk-reward tradeoff; safety parameter; second-order cone program; stability properties;

fLanguage

English

Journal_Title

Generation, Transmission & Distribution, IET

Publisher

iet

ISSN

1751-8687

Type

jour

DOI

10.1049/iet-gtd:20050039

Filename

4082364