Modeling and Control of Modern Electrical Energy Systems

Modeling and Control of Modern Electrical Energy Systems

by Masoud Karimi-Ghartemani
Released August 2022
Publisher(s): Wiley-IEEE Press
ISBN: 9781119883418

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Book description

Modeling and Control of Modern Electrical Energy Systems

A step-by-step approach to the modeling, analysis, and control of modern electronically controlled energy systems

In Modeling and Control of Modern Electrical Energy Systems, distinguished researcher Dr. Masoud Karimi-Ghartemani delivers a comprehensive discussion of distributed and renewable energy resource integration from a control system perspective. The book explores various practical aspects of these systems, including the power extraction control of renewable resources and size selection of short-term storage components.

The interactions of distributed energy resources (DERs) with the rest of the electric power system are presented, as is a discussion of the ability of the DER to ride through grid voltage faults and frequency swings. Readers will also discover how to derive mathematical models of different types of energy systems and build simulation models for those systems.

Modeling and Control of Electrical Energy Systems provides end-of chapter examples and problems, as well as:

  • A thorough introduction to power electronic conversion, including power electronics and standard power electronic converters
  • An in-depth treatment of feedback control systems, including frequency-domain (transfer function) approaches and time-domain (state space) approaches
  • Comprehensive discussions of direct current DERs and single-phase alternating current DERs
  • Fulsome explorations of three-phase distributed energy resources

Perfect for researchers, practitioners, and professors with an interest in electronically interfaced modern energy systems, Modeling and Control of Modern Electrical Energy Systems will also earn a place in the libraries of senior undergraduate and graduate students of electrical engineering.

Table of contents

  1. Cover
  2. Title Page
  3. Copyright
  4. Dedication
  5. Author Biography
  6. Preface
  7. Acknowledgments
  8. Acronyms
  9. Symbols
  10. Introduction
    1. I.1 Electric Power System and the Need for Change
    2. I.2 A Potential Solution: Renewable Integration
    3. I.3 Microgrid
    4. I.4 Distributed Energy Resource (DER)
    5. I.5 Objectives and Scope of this Book
    6. Exercises
    7. References
    8. Notes
  11. Part I: Power Electronic Conversion
    1. 1 Power Electronics
      1. 1.1 Power Electronics Based Conversion
      2. 1.2 Power Electronic Switches
      3. 1.3 Types of Power Electronic Converters
      4. 1.4 Applications of Power Electronics in Power Engineering
      5. 1.5 Summary and Conclusion
      6. Exercises
      7. Problems
      8. Reference
    2. 2 Standard Power Electronic Converters
      1. 2.1 Standard Buck Converter
      2. 2.2 Standard Boost Converter
      3. 2.3 Standard Inverting Buck-Boost Converter
      4. 2.4 Standard Four-Switch Buck-Boost Converter
      5. 2.5 Standard Bidirectional Converter
      6. 2.6 Single-Phase Half-Bridge VSC
      7. 2.7 Full-Bridge VSC
      8. 2.8 Three-Phase VSC
      9. 2.9 Modeling of Converter Delays
      10. 2.10 Summary and Conclusion
      11. Exercises
      12. Problems
      13. References
      14. Notes
  12. Part II: Feedback Control Systems
    1. 3 Frequency-Domain (Transfer Function) Approach
      1. 3.1 Key Concepts
      2. 3.2 Open-Loop Control
      3. 3.3 Closed-Loop (or Feedback) Control
      4. 3.4 Some Feedback Loop Properties
      5. 3.5 Summary and Conclusion
      6. Problems
      7. Notes
    2. 4 Time-Domain (State Space) Approach
      1. 4.1 State Space Representation and Properties
      2. 4.2 State Feedback
      3. 4.3 State Estimator
      4. 4.4 Optimal Control
      5. 4.5 Summary and Conclusion
      6. Problems
      7. References
      8. Notes
  13. Part III: Distributed Energy Resources (DERs)
    1. 5 Direct-Current (dc) DERs
      1. 5.1 Introduction
      2. 5.2 Overview of a Solar PV Conversion System
      3. 5.3 Power Control via Current Feedback Loop
      4. 5.4 Grid Voltage Support
      5. 5.5 Analysis of Weak Grid Condition
      6. 5.6 Load Voltage Control
      7. 5.7 Grid-Forming Converter Controls
      8. 5.8 Control Scenarios in a PV Converter
      9. 5.9 LCL Filter
      10. 5.10 Summary and Conclusion
      11. Problems
      12. References
      13. Notes
    2. 6 Single-Phase Alternating-Current (ac) DERs
      1. 6.1 Power Balance in a dc/ac System
      2. 6.2 Power Control Method via Current Feedback Loop (CFL)
      3. 6.3 Grid-Supportive Controls
      4. 6.4 dc Voltage Control and Support
      5. 6.5 Load Voltage Control and Support
      6. 6.6 DERs in a Hybrid ac/dc Network
      7. 6.7 Summary and Conclusion
      8. Problems
      9. References
      10. Notes
    3. 7 Three-Phase DERs
      1. 7.1 Introduction
      2. 7.2 Three-Phase PLL
      3. 7.3 Vector Current Control in Stationary Domain
      4. 7.4 Vector Current Control in Synchronous Reference Frame
      5. 7.5 Grid-Supportive Controls
      6. 7.6 dc Side Voltage Control and Support
      7. 7.7 Load Voltage Control and Support
      8. 7.8 Summary and Conclusion
      9. Problems
      10. References
      11. Notes
    4. 8 Summary and Conclusion
  14. Index
  15. End User License Agreement

Product information

  • Title: Modeling and Control of Modern Electrical Energy Systems
  • Author(s): Masoud Karimi-Ghartemani
  • Release date: August 2022
  • Publisher(s): Wiley-IEEE Press
  • ISBN: 9781119883418