A stability theorem for networks containing synchronous generators

We revisit a by now well known stability result for power networks containing several synchronous generators, due to F. Dörfler and F. Bullo, SIAM Journal on Control and Optimization, 2012. The approximate (or reduced) model that we work with is called the network reduced power system (NRPS) model....

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Published inSystems & control letters Vol. 134; p. 104561
Main Authors Weiss, George, Dörfler, Florian, Levron, Yoash
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2019
Subjects
Exponential stability
Kuramoto model
Power network
Predominantly inductive network
Synchronous generator
Virtual synchronous machine
Power network
Kuramoto model
Exponential stability
Virtual synchronous machine
Synchronous generator
Predominantly inductive network
Online AccessGet full text
ISSN0167-6911
1872-7956
DOI10.1016/j.sysconle.2019.104561

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Abstract We revisit a by now well known stability result for power networks containing several synchronous generators, due to F. Dörfler and F. Bullo, SIAM Journal on Control and Optimization, 2012. The approximate (or reduced) model that we work with is called the network reduced power system (NRPS) model. The mentioned result from 2012 is that under certain conditions, the state trajectory of the NRPS model is close to the trajectory of the corresponding Kuramoto model (that is obtained by setting the inertias of the generators to zero), if both start from the same initial angles. The Kuramoto model is locally exponentially stable, so that this gives us useful indications on the behavior of the power network. We show that the mentioned result can be generalized and strengthened in several aspects. For instance, we show that the Kuramoto model has a unique asymptotically stable equilibrium point and we give an explicit characterization of its domain of attraction. We also characterize the region in the state space of the NRPS model where the asymptotic approximation by the state trajectories of the Kuramoto model is valid. We also significantly enlarge the class of NRPS models for which the result applies, and we prove the local exponential stability of the NRPS model for small enough inertia constants. We briefly indicate how this result can be useful for analyzing the stability of microgrids containing virtual synchronous machines.
AbstractList We revisit a by now well known stability result for power networks containing several synchronous generators, due to F. Dörfler and F. Bullo, SIAM Journal on Control and Optimization, 2012. The approximate (or reduced) model that we work with is called the network reduced power system (NRPS) model. The mentioned result from 2012 is that under certain conditions, the state trajectory of the NRPS model is close to the trajectory of the corresponding Kuramoto model (that is obtained by setting the inertias of the generators to zero), if both start from the same initial angles. The Kuramoto model is locally exponentially stable, so that this gives us useful indications on the behavior of the power network. We show that the mentioned result can be generalized and strengthened in several aspects. For instance, we show that the Kuramoto model has a unique asymptotically stable equilibrium point and we give an explicit characterization of its domain of attraction. We also characterize the region in the state space of the NRPS model where the asymptotic approximation by the state trajectories of the Kuramoto model is valid. We also significantly enlarge the class of NRPS models for which the result applies, and we prove the local exponential stability of the NRPS model for small enough inertia constants. We briefly indicate how this result can be useful for analyzing the stability of microgrids containing virtual synchronous machines.
ArticleNumber 104561
Author Weiss, George
Levron, Yoash
Dörfler, Florian
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  givenname: George
  surname: Weiss
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  givenname: Yoash
  surname: Levron
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  organization: Viterbi Faculty of Electrical Engineering, Technion - Israel Institute of Technology, Haifa, 32000, Israel
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Keywords Power network
Kuramoto model
Exponential stability
Virtual synchronous machine
Synchronous generator
Predominantly inductive network
Language English
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Snippet We revisit a by now well known stability result for power networks containing several synchronous generators, due to F. Dörfler and F. Bullo, SIAM Journal on...
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StartPage 104561
SubjectTerms Exponential stability
Kuramoto model
Power network
Predominantly inductive network
Synchronous generator
Virtual synchronous machine
Title A stability theorem for networks containing synchronous generators
URI https://dx.doi.org/10.1016/j.sysconle.2019.104561
Volume 134
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