Modeling and control of modern electrical energy systems /

"This book presents the issues pertaining to the distributed and renewable energy resource (DER) integration and formulates them from a control system perspective. It then proceeds to discuss controllers that can address them. Various practically significant aspects such as power extraction con...

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Bibliographic Details
Main Author: Karimi-Ghartemani, Masoud (Author)
Format: eBook
Language:English
Published: Hoboken, New Jersey : Piscataway, NJ : John Wiley & Sons, Inc. ; IEEE Press, [2022]
Series:IEEE Press series on power and energy systems
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Author Biography xv
  • Preface xvii
  • Acknowledgments xix
  • Acronyms xxi
  • Symbols xxv
  • Introduction xxvii
  • Part I Power Electronic Conversion 1
  • 1 Power Electronics 3
  • 1.1 Power Electronics Based Conversion 3
  • 1.2 Power Electronic Switches 4
  • 1.3 Types of Power Electronic Converters 6
  • 1.4 Applications of Power Electronics in Power Engineering 6
  • 1.5 Summary and Conclusion 8
  • 2 Standard Power Electronic Converters 11
  • 2.1 Standard Buck Converter 11
  • 2.2 Standard Boost Converter 20
  • 2.3 Standard Inverting Buck-Boost Converter 24
  • 2.4 Standard Four-Switch Buck-Boost Converter 26
  • 2.5 Standard Bidirectional Converter 29
  • 2.6 Single-Phase Half-Bridge VSC 30
  • 2.7 Full-Bridge VSC 37
  • 2.8 Three-Phase VSC 40
  • 2.9 Modeling of Converter Delays 43
  • 2.10 Summary and Conclusion 44
  • Part II Feedback Control Systems 49
  • 3 Frequency-Domain (Transfer Function) Approach 51
  • 3.1 Key Concepts 51
  • 3.2 Open-Loop Control 56
  • 3.3 Closed-Loop (or Feedback) Control 57
  • 3.4 Some Feedback Loop Properties 67
  • 3.5 Summary and Conclusion 69
  • 4 Time-Domain (State Space) Approach 73
  • 4.1 State Space Representation and Properties 73
  • 4.2 State Feedback 76
  • 4.3 State Estimator 78
  • 4.4 Optimal Control 81
  • 4.5 Summary and Conclusion 89
  • Part III Distributed Energy Resources (DERs) 93
  • 5 Direct-Current (dc) DERs 95
  • 5.1 Introduction 95
  • 5.2 Overview of a Solar PV Conversion System 97
  • 5.3 Power Control via Current Feedback Loop 100
  • 5.4 Grid Voltage Support 113
  • 5.5 Analysis ofWeak Grid Condition 133
  • 5.6 Load Voltage Control 135
  • 5.7 Grid-Forming Converter Controls 142
  • 5.8 Control Scenarios in a PV Converter 152
  • 5.9 LCL Filter 167
  • 5.10 Summary and Conclusion 179
  • 6 Single-Phase Alternating-Current (ac) DERs 181
  • 6.1 Power Balance in a dc/ac System 181
  • 6.2 Power Control Method via Current Feedback Loop (CFL) 183
  • 6.3 Grid-Supportive Controls 204
  • 6.4 dc Voltage Control and Support 219
  • 6.5 Load Voltage Control and Support 235
  • 6.6 DERs in a Hybrid ac/dc Network 243
  • 6.7 Summary and Conclusion 244
  • 7 Three-Phase DERs 249
  • 7.1 Introduction 249
  • 7.2 Three-Phase PLL 255
  • 7.3 Vector Current Control in Stationary Domain 262
  • 7.4 Vector Current Control in Synchronous Reference Frame 277
  • 7.5 Grid-Supportive Controls 297
  • 7.6 dc Side Voltage Control and Support 307
  • 7.7 Load Voltage Control and Support 318
  • 7.8 Summary and Conclusion 334
  • Problems 335
  • References 338
  • 8 Summary and Conclusion 341
  • Index 345.