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Journal article

Robust Allocation of Reserve Policies for a Multiple-Cell Based Power System

By Hu, Junjie1; Lan, Tian2; Heussen, Kai3,4,5; Marinelli, Mattia3,4,6; Prostejovsky, Alexander Maria3,4,5; Lei, Xianzhang2

From

North China Electric Power University1

Global Energy Interconnection Research Institute Europe GmbH2

Department of Electrical Engineering, Technical University of Denmark3

Center for Electric Power and Energy, Centers, Technical University of Denmark4

Energy System Management, Center for Electric Power and Energy, Centers, Technical University of Denmark5

Distributed Energy Resources, Center for Electric Power and Energy, Centers, Technical University of Denmark6

This paper applies a robust optimization technique for coordinating reserve allocations in multiple-cell based power systems. The linear decision rules (LDR)-based policies were implemented to achieve the reserve robustness, and consist of a nominal power schedule with a series of linear modifications.

The LDR method can effectively adapt the participation factors of reserve providers to respond to system imbalance signals. The policies considered the covariance of historic system imbalance signals to reduce the overall reserve cost. When applying this method to the cell-based power system for a certain horizon, the influence of different time resolutions on policy-making is also investigated, which presents guidance for its practical application.

The main results illustrate that: (a) the LDR-based method shows better performance, by producing smaller reserve costs compared to the costs given by a reference method; and (b) the cost index decreases with increased time intervals, however, longer intervals might result in insufficient reserves, due to low time resolution.

On the other hand, shorter time intervals require heavy computational time. Thus, it is important to choose a proper time interval in real time operation to make a trade off.

Language: English
Publisher: MDPI AG
Year: 2018
Pages: 381
ISSN: 19961073
Types: Journal article
DOI: 10.3390/en11020381
ORCIDs: Prostejovsky, Alexander Maria , Heussen, Kai and Marinelli, Mattia
Keywords

Linear decision rules Optimal reserve allocation Robust optimization Web of cells

Other keywords

T Technology linear decision rules optimal reserve allocation robust optimization web of cells

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