A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus

A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus

Direct current (DC) distribution is one of the most important enabling technologies for the future development of microgrids, due to the ease of interfacing DC components (e.g., batteries, photovoltaic systems, and native DC loads) to the grid. In these power systems, the large use of controlled pow...

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Main Authors: Daniele Bosich, Andrea Vicenzutti, Samuele Grillo, Giorgio Sulligoi
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Series:Applied Sciences
Subjects:
islanded DC microgrid
battery-only operation
constant power load
CPL
floating DC bus
stability criterion
power management
Online Access:https://www.mdpi.com/2076-3417/8/11/2102
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spelling doaj-80ca6e44dc154b86b913d764d8b453172020-11-24T20:51:11ZengMDPI AGApplied Sciences2076-34172018-11-01811210210.3390/app8112102app8112102A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating BusDaniele Bosich0Andrea Vicenzutti1Samuele Grillo2Giorgio Sulligoi3Department of Engineering and Architecture, University of Trieste, 34127 Trieste, ItalyDepartment of Engineering and Architecture, University of Trieste, 34127 Trieste, ItalyDipartimento di Elettronica, Informazione e Bioingegneria, Politecnico di Milano, 20133 Milano, ItalyDepartment of Engineering and Architecture, University of Trieste, 34127 Trieste, ItalyDirect current (DC) distribution is one of the most important enabling technologies for the future development of microgrids, due to the ease of interfacing DC components (e.g., batteries, photovoltaic systems, and native DC loads) to the grid. In these power systems, the large use of controlled power converters suggests the need of a careful analysis of system stability, as it can be impaired in particular conditions. Indeed, in DC power systems, a destabilizing effect can arise due to the presence of inductor/capacitor (LC) filtering stages (installed for power quality requirements) and high-bandwidth controlled converters, behaving as constant power loads (CPLs). This issue is even more critical when the CPL is potentially fed only by the battery, causing the DC bus to be floating. In this context, Lyapunov theory constitutes a valuable method for studying the system stability of DC microgrids feeding CPLs. Such a theory demonstrates how the region of asymptotic stability (RAS) shrinks as the state of charge of the battery diminishes (i.e., as the bus voltage decreases). Once the accuracy of the RAS is validated by comparing it to the real basin of attraction (BA), numerically derived using continuation methods, a smart power management of the CPL can be proposed to preserve the system stability even in the presence of a low bus voltage. Indeed, a suitably designed criterion for limiting the load power can guarantee the invariance of RAS and BA for each equilibrium point. An electric vehicle was used herein as a particular DC microgrid for evaluating the performance derating given by the power limitation.https://www.mdpi.com/2076-3417/8/11/2102islanded DC microgridbattery-only operationconstant power loadCPLfloating DC busstability criterionpower management
collection DOAJ
language English
format Article
sources DOAJ
author Daniele Bosich
Andrea Vicenzutti
Samuele Grillo
Giorgio Sulligoi
spellingShingle Daniele Bosich
Andrea Vicenzutti
Samuele Grillo
Giorgio Sulligoi
A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus
Applied Sciences
islanded DC microgrid
battery-only operation
constant power load
CPL
floating DC bus
stability criterion
power management
author_facet Daniele Bosich
Andrea Vicenzutti
Samuele Grillo
Giorgio Sulligoi
author_sort Daniele Bosich
title A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus
title_short A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus
title_full A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus
title_fullStr A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus
title_full_unstemmed A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus
title_sort stability preserving criterion for the management of dc microgrids supplied by a floating bus
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2018-11-01
description Direct current (DC) distribution is one of the most important enabling technologies for the future development of microgrids, due to the ease of interfacing DC components (e.g., batteries, photovoltaic systems, and native DC loads) to the grid. In these power systems, the large use of controlled power converters suggests the need of a careful analysis of system stability, as it can be impaired in particular conditions. Indeed, in DC power systems, a destabilizing effect can arise due to the presence of inductor/capacitor (LC) filtering stages (installed for power quality requirements) and high-bandwidth controlled converters, behaving as constant power loads (CPLs). This issue is even more critical when the CPL is potentially fed only by the battery, causing the DC bus to be floating. In this context, Lyapunov theory constitutes a valuable method for studying the system stability of DC microgrids feeding CPLs. Such a theory demonstrates how the region of asymptotic stability (RAS) shrinks as the state of charge of the battery diminishes (i.e., as the bus voltage decreases). Once the accuracy of the RAS is validated by comparing it to the real basin of attraction (BA), numerically derived using continuation methods, a smart power management of the CPL can be proposed to preserve the system stability even in the presence of a low bus voltage. Indeed, a suitably designed criterion for limiting the load power can guarantee the invariance of RAS and BA for each equilibrium point. An electric vehicle was used herein as a particular DC microgrid for evaluating the performance derating given by the power limitation.
topic islanded DC microgrid
battery-only operation
constant power load
CPL
floating DC bus
stability criterion
power management
url https://www.mdpi.com/2076-3417/8/11/2102
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