Reference
M. Arnold,
R. R. Negenborn, G. Andersson,
and B. De Schutter, "Multi-area predictive control for combined electricity and
natural gas systems,"
Proceedings of the European Control
Conference 2009, Budapest, Hungary, pp. 1408-1413, Aug. 2009.
Abstract
The optimal operation of an integrated electricity and natural gas system is
investigated. The couplings between these two systems are modeled by energy
hubs, which serve as interface between the loads and the transmission
infrastructures. Previously, we have applied a distributed control scheme to a
static three-hub benchmark system. In this paper, we propose an extension of
this distributed control scheme for application to energy hubs with dynamics.
The dynamics that we consider here are due to storage devices present in the
multi-carrier system. We propose a distributed model predictive control
approach for improving the operation of the system by taking into account
predicted behavior and operational constraints. Simulations in which the
proposed scheme is applied to the three-hub benchmark system illustrate the
potential of the approach.
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BibTeX
@inproceedings{ArnNeg:09-014,
author = {Arnold, Mic{\`{e}}le and Negenborn, Rudi R. and Andersson,
G{\"{o}}ran and De Schutter, Bart},
title = {Multi-Area Predictive Control for Combined Electricity and
Natural Gas Systems},
booktitle = {Proceedings of the European Control Conference 2009},
address = {Budapest, Hungary},
pages = {1408--1413},
month = aug,
year = {2009}
}