3rd Edition

Electric Energy
An Introduction, Third Edition




ISBN 9781466503038
Published November 8, 2012 by CRC Press
606 Pages - 530 B/W Illustrations

USD $150.00

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Book Description

The search for renewable energy and smart grids, the societal impact of blackouts, and the environmental impact of generating electricity, along with the new ABET criteria, continue to drive a renewed interest in electric energy as a core subject. Keeping pace with these changes, Electric Energy: An Introduction, Third Edition restructures the traditional introductory electric energy course to better meet the needs of electrical and mechanical engineering students.

Now in color, this third edition of a bestselling textbook gives students a wider view of electric energy, without sacrificing depth. Coverage includes energy resources, renewable energy, power plants and their environmental impacts, electric safety, power quality, power market, blackouts, and future power systems. The book also makes the traditional topics of electromechanical conversion, transformers, power electronics, and three-phase systems more relevant to students. Throughout, it emphasizes issues that engineers encounter in their daily work, with numerous examples drawn from real systems and real data.

What’s New in This Edition

  • Color illustrations
  • Substation and distribution equipment
  • Updated data on energy resources
  • Expanded coverage of power plants
  • Expanded material on renewable energy
  • Expanded material on electric safety
  • Three-phase system and pulse width modulation for DC/AC converters
  • Induction generator
  • More information on smart grids
  • Additional problems and solutions

Combining the fundamentals of traditional energy conversion with contemporary topics in electric energy, this accessible textbook gives students the broad background they need to meet future challenges.

Table of Contents

History of Power Systems
Thomas A. Edison (1847–1931)
Nikola Tesla (1856–1943)
Battle of AC versus DC
Today’s Power Systems

Basic Components of Power Systems
Power Plants
Transformers
Transmission Lines
Distribution Lines
Conductors
Substations
Control Centers
Worldwide Standards for Household Voltage and Frequency

Energy Resources
Fossil Fuel
Nuclear Fuel

Power Plants
Hydroelectric Power Plants
Fossil Fuel Power Plants
Nuclear Power Plants

Environmental Impact of Power Plants
Environmental Concerns Related to Fossil Fuel Power Plants
Environmental Concerns Related to Hydroelectric Power Plants
Environmental Concerns Related to Nuclear Power Plants

Renewable Energy
Solar Energy
Wind Energy
Hydrokinetic Systems
Geothermal Energy
Biomass Energy
Fuel Cell
Intermittency of Renewable Systems
Energy Storage Systems

Alternating Current Circuits
Alternating Current Waveform
Root Mean Square
Phase Shift
Concept of Phasors
Complex Number Analysis
Complex Impedance
Electric Power
Electric Energy

Three-Phase Systems
Generation of Three-Phase Voltages
Connections of Three-Phase Circuits
Power Calculations of Balanced Three-Phase Circuits

Electric Safety
Electric Shock
Ground Resistance
Touch and Step Potentials
Electric Safety at Home
Low Frequency Magnetic Field and Its Health Effects

Power Electronics
Power Electronic Devices
Solid-State Switching Circuits

Transformers
Theory of Operation
Multi-Winding Transformer
Autotransformer
Three-Phase Transformer
Actual Transformer

Electric Machines
Rotating Magnetic Field
Rotating Induction Motor
Linear Induction Motor
Induction Generator
Synchronous Generator
Synchronous Motor
Direct Current Motor
Stepper Motor
Single-Phase Motors

Power Quality
Voltage Problems
Harmonic Problems

Power Grid and Blackouts
Topology of Power Systems
Analysis of Power Networks
Electric Energy Demand
Trading Electric Energy
World Wide Web of Power
Anatomy of Blackouts
Blackout Scenarios

Future Power Systems
Smart Grid
Electric and Hybrid Electric Vehicles
Alternative Resources
Less Polluting Power Plants
Distributed Generation
Power Electronics
Enhanced Reliability
Intelligent Operation, Maintenance, and Training
Space Power Plants

Appendix A: Units and Symbols
Appendix B: Conversions
Appendix C: Key Parameters
Appendix D: Inductors
Appendix E: Key Integrals
Index

Chapters include exercises.

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Author(s)

Biography

Mohamed A. El-Sharkawi is a fellow of the IEEE and a professor of electrical engineering in the energy area at the University of Washington. He has published more than 250 papers and holds five licensed patents in the area of renewable energy VAR management and minimum arc sequential circuit breaker switching. For more information, please visit Professor El-Sharkawi’s website at the University of Washington.

Reviews

"El-Sharkawi’s book is an excellent introduction to electric power. ... This very well-written book describes the hardware used in electrical power generation and transmission. Particularly valuable are the color pictures showing power plants, transmission lines and other hardware. The operation principles of the system are also clearly described in the book, without complicated unnecessary details. These explanations give an appropriate picture of the power system operation for incoming students. ... Particularly important are the clear discussion of renewable energy generation and the explanation of emerging generation techniques like fuel cells. The book presents well-prepared, practical numerical examples, which enforce students’ ability to solve engineering problems."
—George G. Karady, Arizona State University, Tempe, USA

"This is a great piece of work. It combines a diverse set of materials creatively in a single text. Excellent!"
—Peter Idowu, Penn State Harrisburg, Middletown, USA

"The strength of this book is in its broad treatment of electric energy components and systems in a way that is both useful to engineering students as a stand-alone course, and provides background for more advanced study in these topics."
—Paul Hines, The University of Vermont, Burlington, USA

Praise for the Second Edition

"I found the book to be a nice introductory course to the discipline of electric energy production, transmission, and distribution. I would recommend it to the undergraduate student beginning to explore the rewarding career path of electrical engineering, and equally so to nontechnical professionals working in the power and energy industry who may wish to gain greater insight into the functioning and operations of the electric power system. I truly enjoyed reading this book."
—Pouyan Pourbeik, IEEE Power & Energy Magazine

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