Polyhedral Computation Based Transfer Capacities in Multi-Area Power Systems
Abstract
This paper proposes a new methodology to maximize the feasible set of power injections and cross-border power transfers in meshed multi-area power systems. The approach used polyhedral computation schemes and is an extension to the classic procedure for cross-border transfer capacity assessment in the European power network, including the computation of bilateral cross-border transfer capacities as well as multilateral flow-based approaches. The focus is the characterization of inter-area exchange limits required for secure power system operation in the presence of physical transmission constraints, while maximizing the utilization factors of the transmission lines. The numerical examples include a case study of the ENTSO-E transmission system.
Cite
@article{arxiv.1511.00435,
title = {Polyhedral Computation Based Transfer Capacities in Multi-Area Power Systems},
author = {Alexander Fuchs and Marc Scherer and Göran Andersson},
journal= {arXiv preprint arXiv:1511.00435},
year = {2015}
}