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Energy Processing and Smart Grid

Energy Processing and Smart Grid

Autorzy
Wydawnictwo Blackwell Science
Data wydania 01/06/2018
Wydanie Pierwsze
Liczba stron 448
Forma publikacji książka w twardej oprawie
Poziom zaawansowania Dla profesjonalistów, specjalistów i badaczy naukowych
Język angielski
ISBN 9781119376149
Kategorie Inżynieria komunikacyjna i telekomunikacyjna
532.29 PLN (z VAT)
$138.59 / €124.39 / £107.10 /
Produkt na zamówienie
Przesyłka w 3-4 tygodnie
Ilość
Do schowka

Opis książki

The first book in the field to incorporate fundamentals of energy systems and their applications to smart grid, along with advanced topics in modeling and control This book provides an overview of how multiple sources and loads are connected via power electronic devices. Issues of storage technologies are discussed, and a comparison summary is given to facilitate the design and selection of storage types. The need for real-time measurement and controls are pertinent in future grid, and this book dedicates several chapters to real-time measurements such as PMU, smart meters, communication scheme, and protocol and standards for processing and controls of energy options. Organized into nine sections, Energy Processing for the Smart Grid gives an introduction to the energy processing concepts/topics needed by students in electrical engineering or non-electrical engineering who need to work in areas of future grid development. It covers such modern topics as renewable energy, storage technologies, inverter and converter, power electronics, and metering and control for microgrid systems. In addition, this text: Provides the interface between the classical machines courses with current trends in energy processing and smart grid Details an understanding of three-phase networks, which is needed to determine voltages, currents, and power from source to sink under different load models and network configurations Introduces different energy sources including renewable and non-renewable energy resources with appropriate modeling characteristics and performance measures Covers the conversion and processing of these resources to meet different DC and AC load requirements Provides an overview and a case study of how multiple sources and loads are connected via power electronic devices Benefits most policy makers, students and manufacturing and practicing engineers, given the new trends in energy revolution and the desire to reduce carbon output Energy Processing for the Smart Grid is a helpful text for undergraduates and first year graduate students in a typical engineering program who have already taken network analysis and electromagnetic courses.

Energy Processing and Smart Grid

Spis treści

PREFACE xi


ACKNOWLEDGMENTS xiii


FOREWORD xv


CHAPTER 1 INTRODUCTION 1


1.1 Introduction 1


Bibliography 4


CHAPTER 2 ELECTRIC NETWORK ANALYSIS IN ENERGY PROCESSING AND SMART GRID 5


2.1 Introduction 5


2.2 Complex Power Concepts 5


2.3 Review of AC-Circuit Analysis Using Phasor Diagrams 8


2.4 Polyphase Systems 9


2.5 Three-Phase Loads with Impedence Loads 13


2.6 Transformation of Y to Delta and Delta to Y 17


2.7 Summary of Phase and Line Voltages/Currents for Balanced Three-Phase Systems 19


2.8 Per-Unit Systems 22


2.9 Chapter Summary 27


Exercises 27


Bibliography 29


CHAPTER 3 MAGNETIC SYSTEMS FOR ENERGY PROCESSING 31


3.1 Introduction 31


3.2 Magnetic Fields 31


3.3 Equivalent Magnetic and Electric Circuits 34


3.4 Overview of Magnetic Materials 35


3.5 Hysteresis Loops and Hysteresis Losses in Ferromagnetic Materials 35


3.6 Definitions 38


3.7 Magnetic Circuit Losses 38


3.8 Producing Magnetic Flux in Air Gap 40


3.9 Rectangular-Shaped Magnetic Circuits 41


3.10 Chapter Summary 45


Exercises 45


Bibliography 47


CHAPTER 4 TRANSFORMERS 49


4.1 Introduction 49


4.2 First Two Maxwell's Laws 50


4.3 Transformers 51


4.4 Ideal Single-Phase Transformer Models 56


4.5 Modeling a Transformer into Equivalent Circuits 59


4.6 Transformer Testing 65


4.7 Transformer Specifications 71


4.8 Three-Phase Power Transformers 72


4.9 New Advances in Transformer Technology: Solid-State Transformers 72


4.10 Chapter Summary 78


Exercises 78


Bibliography 82


CHAPTER 5 INDUCTION MACHINES 83


5.1 Introduction 83


5.2 Construction and Types of Induction Motors 83


5.3 Operating Principle 85


5.4 Basic Induction-Motor Concepts 86


5.5 Induction-Motor Slip 88


5.6 Rotor Current and Leakage Reactance 88


5.7 Rotor Copper Loss 91


5.8 Developing the Equivalent Circuit of Polyphase, Wound-Rotor Induction Motors 92


5.9 Computing Corresponding Torque of Induction Motors 96


5.10 Approximation Model for Induction Machines 97


5.11 Speed Control of Induction Motors 100


5.12 Application of Induction Motors 101


5.13 induction-Generator Principles 101


5.14 Chapter Summary 103


Exercises 104


Bibliography 106


CHAPTER 6 SYNCHRONOUS MACHINES 107


6.1 Introduction 107


6.2 Synchronous-Generator Construction 107


6.3 Exciters 108


6.4 Governors 110


6.5 Synchronous Generator Operating Principle 110


6.6 Equivalent Circuit of Synchronous Machines 112


6.7 Synchronous Generator Equivalent Circuits 113


6.8 Over Excitation and Under Excitation 114


6.9 Open-Circuit and Sh

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