Power system harmonics and passive filter design /
"Many books on Power System Harmonics only cover certain aspects of the subject. This book is the first to cover Power System Harmonics in depth, including real world case studies engineers can learn from. Written by a well-known author with extensive experience designing harmonic filters, this...
| Κύριος συγγραφέας: | |
|---|---|
| Μορφή: | Ηλ. βιβλίο |
| Γλώσσα: | English |
| Έκδοση: |
Hoboken, New Jersey :
John Wiley & Sons, Inc.,
2015.
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| Σειρά: | IEEE Press series on power engineering.
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| Θέματα: | |
| Διαθέσιμο Online: | Full Text via HEAL-Link |
Πίνακας περιεχομένων:
- Cover; Contents; Foreword; Preface; About the Author; Chapter 1 Power System Harmonics; 1.1 Nonlinear Loads; 1.2 Increases in Nonlinear Loads; 1.3 Effects of Harmonics; 1.4 Distorted Waveforms; 1.4.1 Harmonics and Power Quality; 1.5 Harmonics and Sequence Components; 1.5.1 Sequence Impedances of Power System Components; 1.6 Harmonic Indices; 1.6.1 Harmonic Factor; 1.6.2 Equations for Common Harmonic Indices; 1.6.3 Telephone Influence Factor; 1.7 Power Factor, Distortion Factor, and Total Power Factor; 1.8 Power Theories; 1.8.1 Single-Phase Circuits: Sinusoidal.
- 1.8.2 Single-Phase Circuits: Nonsinusoidal1.8.3 Three-Phase Systems; 1.8.4 Nonsinusoidal and Unbalanced Three-Phase Systems; 1.8.5 Instantaneous Power Theory; 1.9 Amplification and Attenuation of Harmonics; References; Chapter 2 Fourier Analysis; 2.1 Periodic Functions; 2.2 Orthogonal Functions; 2.3 Fourier Series and Coefficients; 2.4 Odd Symmetry; 2.5 Even Symmetry; 2.6 Half-Wave Symmetry; 2.7 Harmonic Spectrum; 2.8 Complex form of Fourier Series; 2.9 Fourier Transform; 2.9.1 Fourier Transform of Some Common Functions; 2.10 Dirichlet Conditions; 2.11 Power Spectrum of a Function.
- 2.12 Convolution2.12.1 Time Convolution; 2.12.2 Frequency Convolution; 2.12.3 The Convolution Derivative Theorem; 2.12.4 Parseval's Theorem; 2.13 Sampled Waveform: Discrete Fourier Transform; 2.13.1 Leakage; 2.13.2 Picket Fence Effect; 2.14 Fast Fourier Transform; 2.14.1 Signal Flow Graph; References; Chapter 3 Harmonic Generation-1; 3.1 Harmonics in Transformers; 3.1.1 Linear Model of a Two-Winding Transformer; 3.1.2 B-H Curve and Peaky Magnetizing Current; 3.1.3 Effect of Transformer Construction and Winding Connections; 3.1.4 Control of Harmonics in Core Type Transformers.
- 3.2 Energization of a Transformer3.2.1 DC Core Saturation of Transformers; 3.2.2 Sympathetic Inrush Current; 3.3 Delta Windings of Three-Phase Transformers; 3.3.1 Phase Shift in Three-Phase Transformers Winding Connections; 3.3.2 Phase Shift for Negative Sequence Components; 3.3.3 Distortion due to Saturation; 3.3.4 Geomagnetically Induced Currents; 3.4 Harmonics in Rotating Machine Windings; 3.4.1 EMF of the Windings; 3.4.2 Distribution Factor; 3.4.3 Armature Reaction; 3.5 Cogging and Crawling of Induction Motors; 3.5.1 Harmonic Induction Torques; 3.5.2 Harmonic Synchronous Torques.
- 3.5.3 Tooth Ripples in Electrical Machines3.6 Synchronous Generators; 3.6.1 Voltage Waveform; 3.6.2 Third Harmonic Voltages and Currents; 3.7 Saturation of Current Transformers; 3.8 Ferroresonance; 3.8.1 Series Ferroresonance; 3.8.2 Parallel Ferroresonance; 3.9 Power Capacitors; 3.10 Transmission Lines; References; Chapter 4 Harmonic Generation-II; 4.1 Static Power Converters; 4.2 Single-Phase Bridge Circuit; 4.2.1 Phase Control; 4.3 Reactive Power Requirements of Converters; 4.4 Three-Phase Bridge Circuit; 4.4.1 Cancellation of Harmonics Due to Phase Multiplication.
