• Produktbild: Electric Power Engineering
  • Produktbild: Electric Power Engineering

Electric Power Engineering

Fr. 191.00

inkl. gesetzl. MwSt., Versandkostenfrei


Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

25.09.2012

Verlag

Springer Us

Seitenzahl

449

Maße (L/B/H)

23.5/15.5/2.6 cm

Gewicht

712 g

Auflage

Second Edition 1998

Sprache

Englisch

ISBN

978-1-4613-7747-4

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

25.09.2012

Verlag

Springer Us

Seitenzahl

449

Maße (L/B/H)

23.5/15.5/2.6 cm

Gewicht

712 g

Auflage

Second Edition 1998

Sprache

Englisch

ISBN

978-1-4613-7747-4

Herstelleradresse

Springer-Verlag KG
Sachsenplatz 4-6
1201 Wien
AT

Email: GPSR Kontakt

Noch keine Bewertungen vorhanden

Verfassen Sie die erste Bewertung zu diesem Artikel

Helfen Sie anderen Kundinnen und Kunden durch Ihre Meinung.

Kundinnen und Kunden meinen

Bewertungen (0)

  • Produktbild: Electric Power Engineering
  • Produktbild: Electric Power Engineering
  • 1 Energy: The Basis of Civilization.- 1.1 Historical Perspective.- 1.2 Energy Flow in Industrialized Societies.- 1.3 The Growth of Energy Consumption.- 1.4 Electric Energy.- 1.5 Summary.- Exercises.- References.- 2 Fundamentals of Energy.- 2.1 Energy and Gravitation.- 2.2 Gravitational Force Field.- 2.3 Gravitational Energy Exchange: Definition of Energy.- 2.4 Gravitational Potential: Potential Energy.- 2.5 General Expressions for Energy.- 2.6 Rate of Energy or Power.- 2.7 The Law of Conservation of Energy: First Law of Thermodynamics.- 2.8 Other Forms of Potential Energy.- 2.9 Forms of Kinetic Energy.- 2.10 Caloric (Heat or Thermal) Energy.- 2.11 Energy Dissipation.- 2.12 Nuclear Energy.- 2.13 Solar Energy.- 2.14 Summary.- Exercises.- References.- 3 Fundamentals of Electric Energy.- 3.1 Electric Energy Engineering.- 3.2 Physical Nature of Electricity: Electric Charge.- 3.3 Coulomb’s Law: The Gravity Analog.- 3.4 The Electric Field.- 3.5 Electrostatic Energy.- 3.6 Electric Potential.- 3.7 General Field Configurations.- 3.8 Electrostatic Energy Storage: Capacitance.- 3.9 Practical Electric Capacitors.- 3.10 Electrodynamics: Electric Current.- 3.11 Currents in Electric Conductors.- 3.12 Ohm’s Law.- 3.13 Basics of Electric Power.- 3.14 Resistive or Ohmic Power Dissipation.- 3.15 Electric Power Transmission.- 3.16 Electric Sources.- 3.17 The Magnetic Field.- 3.18 Magnetic Flux.- 3.19 Electromagnetic Induction: Faraday’s and Lenz’s Laws.- 3.20 The Electromagnetic Force Law.- 3.21 The Concept of Mutual Inductance.- 3.22 The Concept of Self-Inductance.- 3.23 Electromagnetic Energy Storage.- 3.24 Magnetic Energy Storage in Mutually Coupled Circuits.- 3.25 The Magnetic Moment.- 3.26 Ferromagnetism.- 3.27 Summary.- Exercises.- References.- 4 Synchronous Machine.- 4.1Direct Current Versus Alternating Current.- 4.2 Power in Single-Phase Alternating Current.- 4.3 The Single-Phase Alternating-Current Generator.- 4.4 The Three-Phase Generator.- 4.5 Balanced Three-Phase Loading.- 4.6 Torque Mechanism in a Three-Phase Generator.- 4.7 The Synchronous Machine as Part of a Power Grid.- 4.8 Summary and Some Final Observations.- Exercises.- References.- 5 The Power Transformer.- 5.1 Why Transformers?.- 5.2 The Single-Phase Transformer: Basic Design.- 5.3 The Concept of an “Ideal” Transformer.- 5.4 The Physical Transformer: The Ideal Transformer.- 5.5 Some Practical Design Considerations.- 5.6 Multiwinding Transformers.- 5.7 Autotransformers.- 5.8 Three-Phase Power Transformers.- 5.9 Summary.- Exercises.- References.- 6 The Electric Power Network.- 6.1 The Structure of the Power Network.- 6.2 Objectives of Power System Operation.- 6.3 Real Power Balance: The Load-Frequency Control Problem.- 6.4 Optimum Generation.- 6.5 Line Power and Its Control.- 6.6 Load Flow Analysis.- 6.7 Summary.- Exercises.- References.- 7 The Direct Current Machine.- 7.1 Torque-Speed Requirements of Motors.- 7.2 A Direct Current Motor Prototype.- 7.3 Physical Motor Design.- 7.4 Operating Characteristics of the Direct Current Machine.- 7.5 Direct Current Power Supply Systems.- 7.6 Summary.- Exercises.- References.- 8 Induction Machines.- 8.1 Why Induction Motors?.- 8.2 Basic Design Features.- 8.3 The Rotating Stator Flux Wave.- 8.4 The Torque-Creating Mechanism.- 8.5 Three-Phase Induction Motor Performance Analysis.- 8.6 Modification of the Model for Nonideal Motor Characteristics.- 8.7 Operational Considerations.- 8.8 Single-Phase Induction Motors.- 8.9 Summary.- Exercises.- References.- 9 Electric Motors for Special Applications.- 9.1 Linear Induction Motor.- 9.2Stepper Motor.- 9.3 Brushless Direct Current Motors.- 9.4 Synchros.- 9.5 Summary.- Exercises.- References.- Appendix A.- Phasor Analysis.- A.1 Vector Representation of Sinusoids: The Concept of Phasors.- A.2 Phasor Representation Using Complex Numbers.- A.2.1 Complex Numbers: Definition.- A.2.2 Complex Algebra.- A.3 Impedances.- A.4 Admittances.- Appendix B.- Spectral Analysis.- B.1 Periodic Waveforms.- B.2 Finding the Amplitudes of the Harmonics.- B.3 Spectral Analysis by Numerical Integration.- B.4 Periodic Waveforms in the Space Domain.- Appendix C.- The SI Unit System.- C.1 General.- C.2 Basic Units.- C.3 Derived Units.- C.4 Multiplication Factors and Prefixes.- C.5 Conversion Between Unit Systems.- References.- Appendix D.- Units of Energy and Power Conversion.- D.1 Conversion of Units of Energy.- D.2 Conversion of Units of Power.- Answers to Selected Exercises.