Reference
M. Arnold,
R. R. Negenborn, G. Andersson,
and B. De Schutter, "Model-based predictive control applied to multi-carrier
energy systems,"
Proceedings of the 2009 IEEE PES General
Meeting, Calgary, Canada, July 2009. Paper 09GM1452.
Abstract
The optimal operation of an integrated electricity and natural gas
infrastructure is investigated. The couplings between the electricity system
and the gas system are modeled by so-called energy hubs, which represent the
interface between the loads on the one hand and the transmission
infrastructures on the other. To increase reliability and efficiency, storage
devices are present in the multi-carrier energy system. In order to optimally
incorporate these storage devices in the operation of the infrastructure, the
capacity constraints and dynamics of these have to be taken into account
explicitly. Therefore, we propose a model predictive control approach for
controlling the system. This controller takes into account the present
constraints and dynamics, and in addition adapts to expected changes of loads
and/or energy prices. Simulations in which the proposed scheme is applied to a
three-hub benchmark system are presented.
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BibTeX
@inproceedings{ArnNeg:09-005,
author = {Arnold, Mic{\`{e}}le and Negenborn, Rudi R. and Andersson,
G{\"{o}}ran and De Schutter, Bart},
title = {Model-Based Predictive Control Applied to Multi-Carrier Energy
Systems},
booktitle = {Proceedings of the 2009 IEEE PES General Meeting},
address = {Calgary, Canada},
month = jul,
year = {2009},
note = {Paper 09GM1452}
}