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Energy Processing and Smart Grid
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Energy Processing and Smart Grid
by James A. Momoh
Energy Processing and Smart Grid
Preface
Acknowledgments
Foreword
Chapter 1 Introduction
1.1 Introduction
Bibliography
Chapter 2 Electric Network Analysis in Energy Processing and Smart Grid
2.1 Introduction
2.2 Complex Power Concepts
2.3 Review of AC-Circuit Analysis Using Phasor Diagrams
2.4 Polyphase Systems
2.5 Three-Phase Impedence Loads
2.6 Transformation of Y to Delta and Delta to Y Networks
2.7 Summary of Phase and Line Voltages/Currents for Balanced Three-Phase Systems
2.8 Per-Unit Systems
2.9 Chapter Summary
Exercises
Bibliography
Chapter 3 Magnetic Systems for Energy Processing
3.1 Introduction
3.2 Magnetic Fields
3.3 Equivalent Magnetic and Electric Circuits
3.4 Overview of Magnetic Materials
3.5 Hysteresis Loops and Hysteresis Losses in Ferromagnetic Materials
3.6 Definitions
3.7 Magnetic Circuit Losses
3.8 Producing Magnetic Flux in Air Gap
3.9 Rectangular-Shaped Magnetic Circuits
3.10 Chapter Summary
Exercises
Bibliography
Chapter 4 Transformers
4.1 Introduction
4.2 First Two Maxwell's Laws
4.3 Transformers
4.4 Ideal Single-Phase Transformer Models
4.5 Modeling a Transformer into Equivalent Circuits
4.6 Transformer Testing
4.7 Transformer Specifications
4.8 Three-Phase Power Transformers
4.9 New Advances in Transformer Technology: Solid-State Transformers — an Introduction
4.10 Chapter Summary
Exercises
Bibliography
Chapter 5 Induction Machines
5.1 Introduction
5.2 Construction and Types of Induction Motors
5.3 Operating Principle
5.4 Basic Induction-Motor Concepts
5.5 Induction-Motor Slip
5.6 Rotor Current and Leakage Reactance
5.7 Rotor Copper Loss
5.8 Developing the Equivalent Circuit of Polyphase, Wound-Rotor Induction Motors
5.9 Computing Corresponding Torque of Induction Motors
5.10 Approximation Model for Induction Machines
5.11 Speed Control of Induction Motors
5.12 Application of Induction Motors
5.13 Induction-Generator Principles
5.14 Chapter Summary
Exercises
Bibliography
Chapter 6 Synchronous Machines
6.1 Introduction
6.2 Synchronous-Generator Construction
6.3 Exciters
6.4 Governors
6.5 Synchronous Generator Operating Principle
6.6 Equivalent Circuit of Synchronous Machines
6.7 Synchronous Generator Equivalent Circuits
6.8 Over Excitation and Under Excitation
6.9 Open-Circuit and Short-Circuit Characteristics
6.10 Performance Characteristics of Synchronous Machines
6.11 Generator Compounding Curve
6.12 Synchronous Generator Operating Alone: Concept of Infinite Bus
6.13 Initial Elementary Facts about Synchronous Machines
6.14 Cylindrical-Rotor Machines for Turbo Generators
6.15 Synchronous Machines with Effects of Saliency: Two-Reactance Theory
6.16 the Salient-Pole Machine
6.17 Synchronous Motors
6.18 Synchronous Machines and System Stability
6.19 Chapter Summary
Exercises
Bibliography
Chapter 7 Dc Machines
7.1 Introduction
7.2 Conductor Moving in A Uniform Magnetic Field
7.3 Current-Carrying Conductor in A Uniform Magnetic Field
7.4 Dc-Machine Construction and Nameplate Parameters
7.5 Dc Machine Pertinent Nameplate Parameters
7.6 Development and Configuration of Equivalent Circuits of Dc Machines
7.7 Classification of Dc Machines
7.8 Voltage Regulation
7.9 Power Computation for Dc Machines
7.10 Power Flow and Efficiency
7.11 Dc Motors
7.12 Computation of Speed of Dc Motors
7.13 Dc-Machine Speed-Control Methods
7.14 Ward Leonard System
7.15 Chapter Summary
Exercises
Bibliography
Chapter 8 Permanent-Magnet Motors
8.1 Introduction
8.2 Permanent-Magnet DC Motors
8.3 Permanent-Magnet Synchronous Motors
8.4 Variants of Permanent-Magnet Synchronous Motors
8.5 Chapter Summary
Bibliography
Chapter 9 Renewable Energy Resources
9.1 Introduction
9.2 Distributed Generation Concepts
9.3 DG Benefits
9.4 Working Definitions and Classifications of Renewable Energy
9.5 Renewable-Energy Penetration
9.6 Maximum Penetration Limits of Renewable-Energy Resources
9.7 Constraints to Implementation of Renewable Energy
Exercises
Bibliography
Chapter 10 Storage Systems in the Smart Grid
10.1 Introduction
10.2 Forms of Energy
10.3 Energy Storage Systems
10.4 Cost Benefits of Storage
10.5 Chapter Summary
Bibliography
Chapter 11 Power Electronics
11.1 Introduction
11.2 Power Systems With Power Electronics Architecture
11.3 Elements of Power Electronics
11.4 Power Semiconductor Devices
11.5 Applications of Power Electronics Devices to Machine Control
11.6 Applications of Power Electronics Devices to Power System Devices
11.7 Applications of Power Electronics to Utility, Aerospace, and Shipping
11.8 Facts
11.9 Chapter Summary
Bibliography
Chapter 12 Converters and Inverters
12.1 Introduction
12.2 Definitions
12.3 DC–DC Converters
12.4 Inverters
12.5 Rectifiers
12.6 Applications
12.7 Chapter Summary
Exercises
Bibliography
Chapter 13 Microgrid Application Design and Technology
13.1 Introduction to Microgrids
13.2 Types of Microgrids
13.3 Microgrid Architecture
13.4 Modeling of a Microgrid
13.5 Chapter Summary
Bibliography
Chapter 14 Microgrid Operational Management
14.1 Perfomance Tools of a Microgrid
14.2 Microgrid Functions
14.3 IEEE Standards for Microgrids
14.4 Microgrid Benefits
14.5 Chapter Summary
Bibliography
Chapter 15 the Smart Grid: an Introduction
15.1 Evolution, Drivers, and the Need for Smart Grid
15.2 Comparison of Smart Grid with the Current Grid System
15.3 Architecture of a Smart Grid
15.4 Design for Smart-Grid Function for Bulk Power Systems
15.5 Smart-Grid Challenges
15.6 Design Structure and Procedure for Smart-Grid Best Practices
15.7 Chapter Summary
Bibliography
Chapter 16 Smart-Grid Layers and Control
16.1 Introduction
16.2 Controls for the Smart Grid
16.3 Layers of Smart Grid Within the Grid
16.4 Command, Control, and Communication Applications in Real Time
16.5 Hardware-in-the-Loop for Energy Processing and the Smart Grid
16.6 Cyber-Physical Systems for Smart Grids
16.7 Chapter Summary
Bibliography
Chapter 17 Energy Processing and Smart-Grid Test Beds
17.1 Introduction
17.2 Study of Available Test Beds for the Smart Grid
17.3 Smart Microgrid Test-Bed Design
17.4 Smart-Grid Test Beds
17.5 Smart-Grid Case Studies
17.6 Simulation Tools, Hardware, and Embedded Systems
17.7 Limitations of Existing Smart-Grid Test Beds
17.8 Chapter Summary
Bibliography
Index
End User License Agreement
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