Datum
2018Autor
Schaab, KonstantinSchlagwort
620 Ingenieurwissenschaften ElektrizitätsversorgungsnetzDezentrale ElektrizitätserzeugungErneuerbare EnergienNetzstabilität <Elektrische Energietechnik>Parametervariable RegelungLineares SystemSpannungsregelungHierarchische RegelungRobuste RegelungModellprädiktive RegelungMetadata
Zur Langanzeige
Buch
Robust Hierarchical Control of Electrical Power Grids with Renewable Energy Sources
Zusammenfassung
The growing integration of renewable energy sources into power grids increases the fluctuations of quantities such as active and reactive powers, voltages, and frequencies - these fluctuations may eventually lead to instabilities, possibly cursing to shutdown and potentially reduced availability of electrical power. The standard approach to stabilizing control of electrical power grids is to start from the nominal operation mode, linearize the dynamics around this mode, and to design linear standard controllers locally for each generating component. This procedure may become insufficient for larger shares of renewables, since the fluctuations can lead to considerable deviations from nominal operation thus rendering the use of controllers designed for linearized models inadequate. Furthermore, the controllers of the involved energy sources are typically designed separately and without considering the stability of the complete grid. This work proposes a multi-level controller approach for power systems, which ensures robustness against changing operating points and fluctuating power sources. On the lower level, the system is decomposed into smaller subsystems, each modeled as a linear parameter-varying system (LPVS), i.e. the LPVS representations of synchronous generators, the wind turbines and photovoltaic systems are proposed. With this technique, the fluctuations and nonlinearities of the components are mapped exactly into variations of the parameters of the LPVS. The varying parameters also account for fluctuations of the connected grid components. The LPV technique allows a decentralized synthesis of locally robust controllers stabilizing for considered ranges of parameters. The synthesis is realized by semi-definite programming. Existing techniques for LPV controller synthesis are tailored to decentralized control of power grids and extended to the handling of input constraints in this work. Since the same modeling and controller technique is applied to the three types of grid components, a truly unified controller approach is realized, ensuring the stabilization of the whole grid. The multi-objective approach allows the simultaneous control of the rotor angle stability, as well as the (local) voltage control, while damping grid oscillations.
Zusätzliche Informationen
Zugleich: Dissertation, Universität Kassel, 2018Druckausgabe
Link zu kassel university pressZitieren
@book{doi:10.19211/KUP9783737604994,
urn:nbn:de:0002-404996,
author={Schaab, Konstantin},
title={Robust Hierarchical Control of Electrical Power Grids with Renewable Energy Sources},
publisher={kassel university press},
year={2018}
}
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2023-06-14T09:57:27Z 2023-06-14T09:57:27Z 2018 doi:10.19211/KUP9783737604994 978-3-7376-0499-4 (e-book) urn:nbn:de:0002-404996 http://hdl.handle.net/123456789/14819 Zugleich: Dissertation, Universität Kassel, 2018 eng kassel university press Urheberrechtlich geschützt https://rightsstatements.org/page/InC/1.0/ 620 Robust Hierarchical Control of Electrical Power Grids with Renewable Energy Sources Buch The growing integration of renewable energy sources into power grids increases the fluctuations of quantities such as active and reactive powers, voltages, and frequencies - these fluctuations may eventually lead to instabilities, possibly cursing to shutdown and potentially reduced availability of electrical power. The standard approach to stabilizing control of electrical power grids is to start from the nominal operation mode, linearize the dynamics around this mode, and to design linear standard controllers locally for each generating component. This procedure may become insufficient for larger shares of renewables, since the fluctuations can lead to considerable deviations from nominal operation thus rendering the use of controllers designed for linearized models inadequate. Furthermore, the controllers of the involved energy sources are typically designed separately and without considering the stability of the complete grid. This work proposes a multi-level controller approach for power systems, which ensures robustness against changing operating points and fluctuating power sources. On the lower level, the system is decomposed into smaller subsystems, each modeled as a linear parameter-varying system (LPVS), i.e. the LPVS representations of synchronous generators, the wind turbines and photovoltaic systems are proposed. With this technique, the fluctuations and nonlinearities of the components are mapped exactly into variations of the parameters of the LPVS. The varying parameters also account for fluctuations of the connected grid components. The LPV technique allows a decentralized synthesis of locally robust controllers stabilizing for considered ranges of parameters. The synthesis is realized by semi-definite programming. Existing techniques for LPV controller synthesis are tailored to decentralized control of power grids and extended to the handling of input constraints in this work. Since the same modeling and controller technique is applied to the three types of grid components, a truly unified controller approach is realized, ensuring the stabilization of the whole grid. The multi-objective approach allows the simultaneous control of the rotor angle stability, as well as the (local) voltage control, while damping grid oscillations. open access Schaab, Konstantin 2018-01-26 vi, 140 Seiten Kassel, Universität Kassel, Fachbereich Elektrotechnik / Informatik Stursberg, Olaf (Prof. Dr.-Ing.) Erlich, István (Prof. Dr.-Ing.) Kassel 978-3-7376-0498-7 (print) Elektrizitätsversorgungsnetz Dezentrale Elektrizitätserzeugung Erneuerbare Energien Netzstabilität <Elektrische Energietechnik> Parametervariable Regelung Lineares System Spannungsregelung Hierarchische Regelung Robuste Regelung Modellprädiktive Regelung publishedVersion true 39,00 Naturwissenschaft, Technik, Informatik, Medizin Dissertation FB 16 Elektrotechnik / Informatik true true
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