Fundamentals of Electric Power Engineering From Electromagnetics to Power Systems 1st edition by Massimo Ceraolo, Davide Poli ISBN 1118868751 9781118868751
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ISBN 10: 1118868751
ISBN 13: 9781118868751
Author: Massimo Ceraolo, Davide Poli
This book serves as a tool for any engineer who wants to learn about circuits, electrical machines and drives, power electronics, and power systems basics From time to time, engineers find they need to brush up on certain fundamentals within electrical engineering. This clear and concise book is the ideal learning tool for them to quickly learn the basics or develop an understanding of newer topics. Fundamentals of Electric Power Engineering: From Electromagnetics to Power Systems helps nonelectrical engineers amass power system information quickly by imparting tools and trade tricks for remembering basic concepts and grasping new developments. Created to provide more in-depth knowledge of fundamentals—rather than a broad range of applications only—this comprehensive and up-to-date book: Covers topics such as circuits, electrical machines and drives, power electronics, and power system basics as well as new generation technologies Allows nonelectrical engineers to build their electrical knowledge quickly Includes exercises with worked solutions to assist readers in grasping concepts found in the book Contains “in-depth” side bars throughout which pique the reader’s curiosity Fundamentals of Electric Power Engineering is an ideal refresher course for those involved in this interdisciplinary branch.
Fundamentals of Electric Power Engineering From Electromagnetics to Power Systems 1st Table of contents:
Part I: Preliminary Material
Chapter 1: Introduction
1.1 The Scope of Electrical Engineering
1.2 This Book’s Scope and Organization
1.3 International Standards and Their Usage in This Book
1.4 Specific Conventions and Symbols in This Book
Chapter 2: The Fundamental Laws of Electromagnetism
2.1 Vector Fields
2.2 Definition of E and B; Lorentz’s Force Law
2.3 Gauss’s Law
2.4 Ampère’s Law and Charge Conservation
2.5 Faraday’s Law
2.6 Gauss’s Law For Magnetism
2.7 Constitutive Equations of Matter
2.8 Maxwell’s Equations and Electromagnetic Waves
2.9 Historical Notes
Part II: Electric Circuit Concept and Analysis
Chapter 3: Circuits as Modelling Tools
3.1 Introduction
3.2 Definitions
3.3 Charge Conservation and Kirchhoff’S Current Law
3.4 Circuit Potentials and Kirchhoff’s Voltage Law
3.5 Solution of a Circuit
3.6 The Substitution Principle
3.7 Kirchhoff’s Laws in Comparison with Electromagnetism Laws
3.8 Power in Circuits
3.9 Historical Notes
Chapter 4: Techniques for Solving Dc Circuits
4.1 Introduction
4.2 Modelling Circuital Systems with Constant Quantities as Circuits
4.3 Solving Techniques
4.4 Power and Energy and Joule’s Law
4.5 More Examples
4.6 Resistive Circuits Operating with Variable Quantities
4.7 Historical Notes
4.8 Proposed Exercises
Chapter 5: Techniques for Solving AC Circuits
5.1 Introduction
5.2 Energy Storage Elements
5.3 Modelling Time-Varying Circuital Systems as Circuits
5.4 Simple R–L and R–C Transients
5.5 AC Circuit Analysis
5.6 Power in AC Circuits
5.7 Historical Notes
5.1 Proposed Exercises
Chapter 6: Three-Phase Circuits
6.1 Introduction
6.2 From Single-Phase to Three-Phase Systems
6.3 The Single-Phase Equivalent of the Three-Phase Circuit
6.4 Power in Three-Phase Systems
6.5 Single-Phase Feeding from Three-Phase Systems
6.6 Historical Notes
Proposed Exercises
Part III: Electric Machines and Static Converters
Chapter 7: Magnetic Circuits and Transformers
7.1 Introduction
7.2 Magnetic Circuits and Single-Phase Transformers
7.3 Three-Phase Transformers
7.4 Magnetic Hysteresis and Core Losses
7.5 Open-Circuit and Short-Circuit Tests
7.6 Permanent Magnets
Proposed Exercises
Chapter 8: Fundamentals of Electronic Power Conversion
8.1 Introduction
8.2 Power Electronic Devices
8.3 Power Electronic Converters
8.4 Analysis of Periodic Quantities
8.5 Filtering Basics
8.6 Summary
Chapter 9: Principles of Electromechanical Conversion
9.1 Introduction
9.2 Electromechanical Conversion in a Translating Bar
9.3 Basic Electromechanics in Rotating Machines
9.4 Reluctance-Based Electromechanical Conversion
Chapter 10: DC Machines and Drives and Universal Motors
10.1 Introduction
10.2 The Basic Idea and Generation of Quasi-Constant Voltage
10.3 Operation of a DC Generator Under Load
10.4 Different Types of DC Machines
10.5 Universal Motors
10.6 DC Electric Drives
10.7 Proposed Exercises
Chapter 11: Synchronous Machines and Drives
11.1 The Basic Idea and Generation of EMF
11.2 Operation Under Load
11.3 Practical Considerations
11.4 Permanent-Magnet Synchronous Machines
11.5 Synchronous Electric Drives
11.6 Historical Notes
11.7 Proposed Exercises
Chapter 12: Induction Machines and Drives
12.1 Induction Machine Basics
12.2 Machine Model and Analysis
12.3 No-Load and Blocked-Rotor Tests
12.4 Induction Machine Motor Drives
12.5 Single-Phase Induction Motors
12.6 Proposed Exercises
Part IV: Power Systems Basics
Chapter 13: Low-Voltage Electrical Installations
13.1 Another Look at the Concept of the Electric Power System
13.2 Electrical Installations: A Basic Introduction
13.3 Loads
13.4 Cables
13.5 Determining Voltage Drop
13.6 Overcurrents and Overcurrent Protection
13.7 Protection in Installations: A Long List
Chapter 14: Electric Shock and Protective Measures
14.1 Introduction
14.2 Electricity and the Human Body
14.3 Protection Against Electric Shock
14.4 The Residual Current Device (RCD) Principle of Operation
14.5 What Else?
References
Chapter 15: Large Power Systems: Structure and Operation
15.1 Aggregation of Loads and Installations: The Power System
15.2 Toward Ac Three-Phase Systems
15.3 Electricity Distribution Networks
15.4 Transmission and Interconnection Grids
15.5 Modern Structure of Power Systems and Distributed Generation
15.6 Basics of Power System Operation
15.7 Vertically Integrated Utilities and Deregulated Power Systems
15.8 Recent Challenges and Smart Grids
15.9 Renewable Energy Sources and Energy Storage
Appendix: Transmission Line Modelling and Port-Based Circuits
A.1 Modelling Transmission Lines Through Circuits
A.2 Modelling Lines as Two-Port Components
A.3 Final Comments
Selected References
Answers to the Proposed Exercises
Index
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Tags: Massimo Ceraolo, Davide Poli, Power Systems, Electric Power