Microgrids
Dynamic Modeling, Stability and Control
(Sprache: Englisch)
Microgrids
Presents microgrid methodologies in modeling, stability, and control, supported by real-time simulations and experimental studies
Microgrids: Dynamic Modeling, Stability and Control, provides comprehensive coverage of microgrid...
Presents microgrid methodologies in modeling, stability, and control, supported by real-time simulations and experimental studies
Microgrids: Dynamic Modeling, Stability and Control, provides comprehensive coverage of microgrid...
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Produktinformationen zu „Microgrids “
Klappentext zu „Microgrids “
MicrogridsPresents microgrid methodologies in modeling, stability, and control, supported by real-time simulations and experimental studies
Microgrids: Dynamic Modeling, Stability and Control, provides comprehensive coverage of microgrid modeling, stability, and control, alongside new relevant perspectives and research outcomes, with vital information on several microgrid modeling methods, stability analysis methodologies and control synthesis approaches that are supported by real-time simulations and experimental studies for active learning in professionals and students alike.
This book is divided into two parts: individual microgrids and interconnected microgrids. Both parts provide individual chapters on modeling, stability, and control, providing comprehensive information on the background, concepts, and architecture, supported by several examples and corresponding source codes/simulation files. Communication based control and cyber security of microgrids are addressed and new outcomes and advances in interconnected microgrids are discussed.
Summarizing the outcome of more than 15 years of the authors' teaching, research, and projects, Microgrids: Dynamic Modeling, Stability and Control covers specific sample topics such as:
* Microgrid dynamic modeling, covering microgrid components modeling, DC and AC microgrids modeling examples, reduced-order models, and model validation
* Microgrid stability analysis, covering stability analysis methods, islanded/grid connected/interconnected microgrid stability
* Microgrids control, covering hierarchical control structure, communication-based control, cyber-resilient control, advanced control theory applications, virtual inertia control and data-driven control
* Modeling, analysis of stability challenges, and emergency control of large-scale interconnected microgrids
* Synchronization stability of interconnected microgrids, covering control requirements of synchronous microgrids
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and inrush power analysis
With comprehensive, complete, and accessible coverage of the subject, Microgrids: Dynamic Modeling, Stability and Control is the ideal reference for professionals (engineers, developers) and students working with power/smart grids, renewable energy, and power systems, to enable a more effective use of their microgrids or interconnected microgrids.
With comprehensive, complete, and accessible coverage of the subject, Microgrids: Dynamic Modeling, Stability and Control is the ideal reference for professionals (engineers, developers) and students working with power/smart grids, renewable energy, and power systems, to enable a more effective use of their microgrids or interconnected microgrids.
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Inhaltsverzeichnis zu „Microgrids “
About the Authors xvPreface xvii
Acknowledgments xix
Acronyms xxi
1 Introduction 1
1.1 Overview 1
1.2 Microgrid Concept and Capabilities 2
1.3 Microgrid Structure 2
1.4 Microgrids in the Future Smart Grids 5
1.5 Microgrids-Integrated Power Grids 7
1.6 Current Trends and Future Directions 8
1.6.1 Dynamic Behavior of MGs and Their Impacts on Power Grids 9
1.6.2 Microgrid-Based Ancillary Services 10
1.6.3 Dynamic Modeling and Control 10
1.7 The Book Content and Organization 10
References 12
Part I Individual Microgrids 15
2 Microgrid Dynamic Modeling: Concepts and Fundamentals 17
2.1 Introduction 17
2.2 Dynamics and Modeling 19
2.3 Fundamental Analysis Tools and Requirements 20
2.3.1 State-Space (Small-Signal) Modeling 21
2.3.1.1 Finding Differential Equations 21
2.3.1.2 Park and Clark Transformations 22
2.3.1.3 Linearization 23
2.3.1.4 State-Space Representation 24
2.3.1.5 Interconnecting Modules 25
2.3.2 Detailed Modeling 28
2.3.3 Simplification Methods 28
2.3.3.1 Truncation (Regular Perturbation) 29
2.3.3.2 Residualization (Singular Perturbation) 30
2.3.3.3 Aggregation 30
2.3.3.4 Sensitivity Analysis 32
2.3.4 Prony Analysis 33
2.3.5 Large-Signal Modeling 35
2.4 Small-Signal Modeling of Microgrid Components 35
2.4.1 DC-AC Converter (Inverter) 36
2.4.2 AC-DC Converter (Rectifier) 36
2.4.3 DC-DC Converter (Chopper) 37
2.4.4 LC Filter 39
2.4.5 Power Network 39
2.4.5.1 Virtual Resistor Calculation 40
2.4.6 Loads 41
2.4.6.1 Constant RL Impedance Load 42
2.4.6.2 Constant Power Load (CPL) 43
2.4.6.3 Motor Load 44
2.4.6.4 Active Load 44
2.4.7 Energy Resources
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and Storages 46
2.4.7.1 Wind Generation Unit 46
2.4.7.2 Photovoltaic Generation Unit 50
2.4.7.3 Battery 52
2.4.7.4 Super-Capacitor 55
2.5 Small-Signal Modeling of Microgrid Controllers 58
2.5.1 Primary Control Strategies 58
2.5.1.1 Grid-Forming Strategy 59
2.5.1.2 Grid-Following Strategy 65
2.5.2 Secondary Control 68
2.5.3 Higher Control Levels 70
2.6 Large-Signal Modeling: An Example 70
2.6.1 Governing Equations on Synchronverter 70
2.6.2 Nonlinear State-Space Representation 72
2.7 Summary 72
References 73
3 Microgrid Dynamic Modeling: Overall Modeling and Case Studies 79
3.1 Introduction 79
3.2 Overall Microgrid Dynamic Modeling 80
3.2.1 Common Reference Frame 80
3.2.2 Microgrid General State-Space Model 81
3.2.3 Grid Model 81
3.3 Small-Signal Modeling of DC and AC Microgrids 82
3.3.1 A Grid-Connected PV 82
3.3.2 Grid-Connected AC Microgrids 84
3.3.3 Islanded AC Microgrids: The Detailed Model 85
3.3.4 Islanded AC Microgrids: A Sensitivity Analysis-Based Simplified Model 86
3.3.4.1 Removing/Reconfiguration Process of Modules 86
3.3.4.2 DLFMs Comparison of the Detailed and Simplified Models 88
3.3.4.3 The Oscillatory DLFM Comparison 89
3.3.5 Islanded AC Microgrids: Aggregated Single-Order Model 90
3.3.5.1 General Steps of Modeling 90
3.3.5.2 Virtual Swing Equation-Based Single-Order Model 91
3.3.6 Islanded DC Microgrid 93
3.4 Large-Signal Modeling
2.4.7.1 Wind Generation Unit 46
2.4.7.2 Photovoltaic Generation Unit 50
2.4.7.3 Battery 52
2.4.7.4 Super-Capacitor 55
2.5 Small-Signal Modeling of Microgrid Controllers 58
2.5.1 Primary Control Strategies 58
2.5.1.1 Grid-Forming Strategy 59
2.5.1.2 Grid-Following Strategy 65
2.5.2 Secondary Control 68
2.5.3 Higher Control Levels 70
2.6 Large-Signal Modeling: An Example 70
2.6.1 Governing Equations on Synchronverter 70
2.6.2 Nonlinear State-Space Representation 72
2.7 Summary 72
References 73
3 Microgrid Dynamic Modeling: Overall Modeling and Case Studies 79
3.1 Introduction 79
3.2 Overall Microgrid Dynamic Modeling 80
3.2.1 Common Reference Frame 80
3.2.2 Microgrid General State-Space Model 81
3.2.3 Grid Model 81
3.3 Small-Signal Modeling of DC and AC Microgrids 82
3.3.1 A Grid-Connected PV 82
3.3.2 Grid-Connected AC Microgrids 84
3.3.3 Islanded AC Microgrids: The Detailed Model 85
3.3.4 Islanded AC Microgrids: A Sensitivity Analysis-Based Simplified Model 86
3.3.4.1 Removing/Reconfiguration Process of Modules 86
3.3.4.2 DLFMs Comparison of the Detailed and Simplified Models 88
3.3.4.3 The Oscillatory DLFM Comparison 89
3.3.5 Islanded AC Microgrids: Aggregated Single-Order Model 90
3.3.5.1 General Steps of Modeling 90
3.3.5.2 Virtual Swing Equation-Based Single-Order Model 91
3.3.6 Islanded DC Microgrid 93
3.4 Large-Signal Modeling
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Autoren-Porträt von Qobad Shafiee, Mobin Naderi, Hassan Bevrani
Qobad Shafiee is an Associate Professor at the University of Kurdistan, Faculty of Engineering. He earned his PhD in Electrical Engineering from Aalborg University in 2014 and is an IEEE Senior Member.Mobin Naderi received his PhD in Control of Modern Power Systems from the University of Kurdistan in 2019, where he is currently a postdoctoral scholar.
Hassan Bevrani is a Professor and Head of Smart/Micro Grids Research Center at the University of Kurdistan.
Bibliographische Angaben
- Autoren: Qobad Shafiee , Mobin Naderi , Hassan Bevrani
- 2023, 1. Auflage, 448 Seiten, Maße: 17,8 x 25,4 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1119906202
- ISBN-13: 9781119906209
- Erscheinungsdatum: 20.12.2023
Sprache:
Englisch
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