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E-raamat: Electrical Power Systems Technology

(Eastern Kentucky University, Richmond, USA), (Eastern Kentucky University, Richmond, USA),
  • Formaat: PDF+DRM
  • Ilmumisaeg: 01-Jun-2022
  • Kirjastus: River Publishers
  • Keel: eng
  • ISBN-13: 9788770226653
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Electrical Power Systems TechnologySuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 01-Jun-2022
  • Kirjastus: River Publishers
  • Keel: eng
  • ISBN-13: 9788770226653
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Electrical Power Systems Technology, Fourth Edition covers a wide range of technologies and systems used in the generation, distribution, control, conversion, and measurement of electrical power. This reference book provides a foundational overview presented in a basic, easy-to-understand manner. The content is organized in a logical pedagogical style using five basic power system components Measurement, Generation, Distribution, Control, and Conversion. Each of these basic systems is broken down into sub-systems, equipment, and components that are explored in greater detail in each of the 18 chapters.

Simplified mathematical concepts are described with practical applications to assist in fundamental understanding. Abundant illustrations (almost one per page) are used to add visual information to supplement technical knowledge development. The fourth edition has been edited to provide improved information and clarity, including many new illustrations. An additional chapter Chapter 18 Evolving Power System Technologies and Considerations has been added to describe issues related to power system operation.
Preface ix
UNIT I POWER MEASUREMENT SYSTEMS AND FUNDAMENTALS
1(84)
Chapter 1 Power Measurement Fundamentals
5(10)
Units of Measurement
Conversion of SI Units
Scientific Notation
Chapter 2 Power System Fundamentals
15(44)
The Systems Concept
Basic System Functions
A Simple Electrical System Example
Energy, Work, and Power
Types of Electrical Circuits
Power in DC Electrical Circuits
Maximum Power Transfer
Overview of Alternating Current Circuits
Vector and Phasor Diagrams for AC Circuits
Impedance in AC Circuits
Power Relationships in AC Circuits
Power Relationships in Three-Phase AC Circuits
Chapter 3 Power Measurement Equipment
59(26)
Measurement Systems
Measuring Electrical Power
Measuring Electrical Energy
Measuring Three-Phase Electrical Energy
Frequency Measurement
Synchroscopes
Ground-Fault Indicators
Megohmmeters
Clamp-On Meters
Telemetering Systems
UNIT II ELECTRICAL POWER PRODUCTION SYSTEMS
85(128)
Chapter 4 Modern Power Systems
89(36)
Electrical Power Plants
Fossil Fuel Systems
Steam Turbines
Boilers
Hydroelectric Systems
Nuclear Fission Systems
Operational Aspects of Modern Power Systems
Chapter 5 Alternative Power Systems
125(22)
Potential Power Sources
Solar Energy Systems
Geothermal Power Systems
Wind Systems
Magnetohydrodynamic Systems
Nuclear-Fusion Power Systems
Nuclear-Fusion Methods
Future of Nuclear Fusion
Fuel-Cell Systems
Tidal Power Systems
Coal-Gasification Fuel Systems
Oil-Shale Fuel-Production Systems
Alternative Nuclear Power Plants
Biomass Systems
Chapter 6 Alternating Current Power Systems
147(20)
Electromagnetic Induction
Basic Generator Operation
Single-Phase AC Power Systems
Single-Phase AC Generators
Three-Phase AC Generators
High-Speed and Low-Speed Generators
Generator Frequency
Harmonics
Generator Voltage Regulation
Generator Efficiency
Chapter 7 Direct Current Power Systems
167(46)
DC Production Using Chemical Cells
Characteristics of Primary Cells
Characteristics of Secondary Cells
DC Generating Systems
DC Conversion Systems
DC Filtering Methods
DC Regulation Methods
UNIT III ELECTRICAL POWER DISTRIBUTION SYSTEMS
213(92)
Chapter 8 Power Distribution Fundamentals
217(34)
Overview of Electrical Power Distribution
Power Transmission and Distribution
Radial, Ring, and Network Distribution Systems
Use of Transformers for Power Distribution
Conductors in Power Distribution Systems
Conductor Area
Resistance of Conductors
Conductor Sizes and Types
Ampacity of Conductors
Ampacity Tables
Use of Insulation in Power Distribution Systems
Chapter 9 Power Distribution Equipment
251(22)
Equipment Used at Substations
Power System Protective Equipment
Power Distribution Inside Industrial and Commercial Buildings
The Electrical Service Entrance
Service Entrance Terminology
Chapter 10 Single-Phase and Three-Phase Distribution Systems
273(32)
Single-Phase Systems
Three-Phase Systems
Grounding of Distribution Systems
System Grounding
Ground-Fault Protection
Wiring Design Considerations for Distribution Systems
Branch Circuit Design Considerations
Feeder Circuit Design Considerations
Determining Grounding Conductor Size
Parts of Interior Electrical Wiring Systems
UNIT IV ELECTRICAL POWER CONVERSION SYSTEMS
305(112)
Chapter 11 Fundamentals of Electrical Loads
309(14)
Load Characteristics
Three-Phase Load Characteristics
Chapter 12 Heating Systems
323(20)
Basic Heating Loads
Electrical Welding Loads
Power Considerations for Electric Welders
Electric Heating and Air Conditioning Systems
Chapter 13 Lighting Systems
343(22)
Characteristics of Light
Electrical Lighting Circuits
Branch Circuit Design
Lighting Fixture Design
Factors in Determining Light Output
Chapter 14 Mechanical Systems
365(52)
Basic Motor Principles
DC Motors
Specialized DC Motors
Single-Phase AC Motors
Three-Phase AC Motors
Specialized Mechanical Power Systems
Electric Motor Applications
UNIT V ELECTRICAL POWER CONTROL SYSTEMS
417(96)
Chapter 15 Power Control
421(28)
Power Control Standards, Symbols, and Definitions
Power Control Using Switches
Control Equipment for Electric Motors
Other Electromechanical Power Control Equipment
Electronic Power Control
Chapter 16 Operational Power Control Systems
449(26)
Basic Control Systems
Motor-Starting Systems
Operational Power Control Systems
Specialized Control Systems
Frequency-Conversion Systems
Programmable Logic Controllers
Programming the PLC
Chapter 17 Control Devices
475(18)
Silicon-Controlled Rectifiers
Triac Power Control
Diac Power Control
Electronic Control Considerations
Chapter 18 Evolving Power System Technologies and Considerations
493(20)
Energy Conservation and Environmental Considerations
Considerations for Electrical Power Sub-Systems
Considerations for Electrical Power Measurement Systems
Considerations for Electrical Power Production Systems
Considerations for Electrical Power Distribution Systems
Considerations for Electrical Power Control Systems
Considerations for Electrical Power Conversion Systems
"Green Energy" Concept
Heating and Cooling/Saving Natural Resources
Lighting
Water/Saving Our Valuable Resource
Electrical Appliances/Improved Design
Appendix A Trigonometric Functions 513(2)
Appendix B The Elements 515(2)
Appendix C Metric Conversions 517(6)
Index 523(6)
About the Authors 529
Dale R. Patrick served over 30 years as a Professor in the Department of Applied Engineering and Technology at Eastern Kentucky University. His experience includes teaching lectures and organizing laboratory classes in many content areas of Electrical Engineering/Electronics Technology. He completed Bachelor of Science and Graduate Degrees at Indiana State University. His experience also includes research projects, technical teacher training, and energy consulting for business and industry. He and Dr. Fardo co-authored over 30 textbooks and laboratory manuals. This textbook is dedicated to him for his mentorship of each of the co-authors.

Stephen W. Fardo is currently a Foundation Professor in the Department of Applied Engineering and Technology at Eastern Kentucky University. Over 30 years of experience includes teaching lectures and organizing laboratory classes in many content areas of Electrical Engineering/Electronics Technology and coordinating I advising technical teacher education programs for the State of Kentucky. He completed Bachelor of Science, Master of Science and Doctoral Degrees at Eastern Kentucky University and University of Kentucky. His experience also includes research projects, technical teacher education, and energy consulting for business and industry. He and Dale Patrick have co-authored over 30 textbooks and laboratory manuals.

Brian W. Fardo has been an Adjunct Professor in the Department of Applied Engineering and Technology at the Noel Studio for Academic Creativity at Eastern Kentucky University. His experience includes teaching classes in Applied Creative Thinking, Electrical Systems, Materials and Processes, Transportation, Manufacturing, Construction, Engineering Graphics, and Quality Control. He has a B.S. Degree in Industrial Distribution and Logistics, M.S. in Technology Systems from East Carolina University and M.S. in Career and Technical Education Eastern Kentucky University. He has completed coursework for a Doctoral Degree in Engineering/Technology Education at North Carolina State University. He currently owns and operates a telecommunications business.
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