An energy-based analysis of reduced-order models of (networked) synchronous machines

T. W. Stegink; C. De Persis; A. J. Van der Schaft

doi:10.1080/13873954.2019.1566265

An energy-based analysis of reduced-order models of (networked) synchronous machines

T. W. Stegink^*, C. De Persis, A. J. Van der Schaft

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

15 Citations (Scopus)

409 Downloads (Pure)

Abstract

Stability of power networks is an increasingly important topic because of the high penetration of renewable distributed generation units. This requires the development of advanced techniques for the analysis and controller design of power networks. Although there are widely accepted reduced-order models to describe the power network dynamics, they are commonly presented without details about the reduction procedure. The present article aims to provide a modular model derivation of multi-machine power networks. Starting from first-principle fundamental physics, we present detailed dynamical models of synchronous machines and clearly state the underlying assumptions which lead to some of the standard reduced-order multi-machine models. In addition, the energy functions for these models are derived, which allows to represent the multi-machine systems as port-Hamiltonian systems. Moreover, the systems are proven to be shifted passive, which permits for a power-preserving interconnection with other passive components.

[GRAPHICS]

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Original language	English
Pages (from-to)	1-39
Number of pages	39
Journal	Mathematical and computer modelling of dynamical systems
Volume	25
Issue number	1
DOIs	https://doi.org/10.1080/13873954.2019.1566265
Publication status	Published - 2-Jan-2019

Keywords

Power networks
synchronous machines
energy functions
OPTIMAL FREQUENCY REGULATION
PORT-HAMILTONIAN APPROACH
TIME CONTROL FRAMEWORK
SMART POWER NETWORKS
STABILITY ANALYSIS
SYSTEMS
GRIDS

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10.1080/13873954.2019.1566265Licence: CC BY-NC-ND

An energy based analysis of reduced order models of networked synchronous machinesFinal publisher's version, 3.32 MBLicence: CC BY-NC-ND

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An energy-based analysis of reduced-order models of (networked) synchronous machines
Stegink, T. (Contributor), De Persis, C. (Contributor) & Schaft ,van der, A. (Contributor), University of Groningen, 6-Aug-2021
DOI: 10.6084/m9.figshare.15125409.v1, https://tandf.figshare.com/articles/dataset/An_energy-based_analysis_of_reduced-order_models_of_networked_synchronous_machines/15125409/1
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Cite this

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title = "An energy-based analysis of reduced-order models of (networked) synchronous machines",

abstract = "Stability of power networks is an increasingly important topic because of the high penetration of renewable distributed generation units. This requires the development of advanced techniques for the analysis and controller design of power networks. Although there are widely accepted reduced-order models to describe the power network dynamics, they are commonly presented without details about the reduction procedure. The present article aims to provide a modular model derivation of multi-machine power networks. Starting from first-principle fundamental physics, we present detailed dynamical models of synchronous machines and clearly state the underlying assumptions which lead to some of the standard reduced-order multi-machine models. In addition, the energy functions for these models are derived, which allows to represent the multi-machine systems as port-Hamiltonian systems. Moreover, the systems are proven to be shifted passive, which permits for a power-preserving interconnection with other passive components.[GRAPHICS].",

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author = "Stegink, {T. W.} and {De Persis}, C. and {Van der Schaft}, {A. J.}",

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T1 - An energy-based analysis of reduced-order models of (networked) synchronous machines

AU - Stegink, T. W.

AU - De Persis, C.

AU - Van der Schaft, A. J.

PY - 2019/1/2

Y1 - 2019/1/2

N2 - Stability of power networks is an increasingly important topic because of the high penetration of renewable distributed generation units. This requires the development of advanced techniques for the analysis and controller design of power networks. Although there are widely accepted reduced-order models to describe the power network dynamics, they are commonly presented without details about the reduction procedure. The present article aims to provide a modular model derivation of multi-machine power networks. Starting from first-principle fundamental physics, we present detailed dynamical models of synchronous machines and clearly state the underlying assumptions which lead to some of the standard reduced-order multi-machine models. In addition, the energy functions for these models are derived, which allows to represent the multi-machine systems as port-Hamiltonian systems. Moreover, the systems are proven to be shifted passive, which permits for a power-preserving interconnection with other passive components.[GRAPHICS].

AB - Stability of power networks is an increasingly important topic because of the high penetration of renewable distributed generation units. This requires the development of advanced techniques for the analysis and controller design of power networks. Although there are widely accepted reduced-order models to describe the power network dynamics, they are commonly presented without details about the reduction procedure. The present article aims to provide a modular model derivation of multi-machine power networks. Starting from first-principle fundamental physics, we present detailed dynamical models of synchronous machines and clearly state the underlying assumptions which lead to some of the standard reduced-order multi-machine models. In addition, the energy functions for these models are derived, which allows to represent the multi-machine systems as port-Hamiltonian systems. Moreover, the systems are proven to be shifted passive, which permits for a power-preserving interconnection with other passive components.[GRAPHICS].

KW - Power networks

KW - synchronous machines

KW - energy functions

KW - OPTIMAL FREQUENCY REGULATION

KW - PORT-HAMILTONIAN APPROACH

KW - TIME CONTROL FRAMEWORK

KW - SMART POWER NETWORKS

KW - STABILITY ANALYSIS

KW - SYSTEMS

KW - GRIDS

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JO - Mathematical and computer modelling of dynamical systems

JF - Mathematical and computer modelling of dynamical systems

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ER -

An energy-based analysis of reduced-order models of (networked) synchronous machines

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Keywords

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An energy-based analysis of reduced-order models of (networked) synchronous machines

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