Power quality in power systems and electrical machines /

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The second edition covers power quality issues including new discussions related to renewable energy systems. Topics include: background on causes, effects, standards, and measurements of power quality and harmonics; harmonic modeling of power systems, including components and apparatus (electric ma...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Masoum, Mohammad A. S. (Autor), Fuchs, Ewald F. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, UK : Academic Press is an imprint of Elsevier, [2015]
Edición:Second edition.
Temas:
Electric power system stability.
Electric power systems > Quality control.
Réseaux électriques (Énergie) > Stabilité.
Réseaux électriques (Énergie) > Qualité > Contrôle.
TECHNOLOGY & ENGINEERING > Electrical.
Acceso en línea:Texto completo (Requiere registro previo con correo institucional)
Tabla de Contenidos:
  • Front Cover; Power Quality in Power Systems and Electrical Machines; Copyright; Contents; Preface; Key features:; Acknowledgments; Chapter 1: Introduction to Power Quality; 1.1. Definition of power quality; 1.2. Causes of disturbances in power systems; Unpredictable Events; The Electric Utility; The Customer; Manufacturing Regulations; 1.3. Classification of power quality issues; 1.3.1. Transients; 1.3.2. Short-Duration Voltage Variations; Interruption; Sags (Dips); Swells; 1.3.3. Long-Duration Voltage Variations; Sustained Interruption; Undervoltage; Overvoltage; 1.3.4. Voltage Imbalance
  • 1.3.5. Waveform DistortionDC Offset; Harmonics; Interharmonics; Notching; Electric Noise; 1.3.6. Voltage Fluctuation and Flicker; Flicker; 1.3.7. Power-Frequency Variations; 1.4. Formulations and measures used for power quality; 1.4.1. Harmonics; Triplen Harmonics; Subharmonics; Interharmonics; Characteristic and Uncharacteristic Harmonics; Positive-, Negative-, and Zero-Sequence Harmonics [48]; Time and Spatial (Space) Harmonics; 1.4.2. The Average Value of a Nonsinusoidal Waveform; 1.4.3. The rms Value of a Nonsinusoidal Waveform; 1.4.4. Form Factor (FF); 1.4.5. Ripple Factor (RF)
  • 1.4.6. Harmonic Factor (HFh)1.4.7. Lowest Order Harmonic (LOH); 1.4.8. Total Harmonic Distortion (THD); 1.4.9. Total Interharmonic Distortion (TIHD); 1.4.10. Total Subharmonic Distortion (TSHD); 1.4.11. Total Demand Distortion (TDD); 1.4.12. Telephone Influence Factor (TIF); 1.4.13. C-Message Weights; 1.4.14. V.T and I.T Products; 1.4.15. Telephone Form Factor (TFF); 1.4.16. Distortion Index (DIN); 1.4.17. Distortion Power (D); 1.4.18. Application Example 1.1: Calculation of Input/Output Currents and Voltages of a Three-Phase Thyristor Rectifier; Solution to Application Example 1.1:
  • 1.4.19. Application Example 1.2: Calculation of Input/Output Currents and Voltages of a Three-Phase Rectifier with One Se...Solution to Application Example 1.2:; 1.4.20. Application Example 1.3: Calculation of Input Currents of a Brushless DC Motor in Full-on Mode (Three-Phase Perma...; Solution to Application Example 1.3:; 1.4.21. Application Example 1.4: Calculation of the Efficiency of a Polymer Electrolyte Membrane (PEM) Fuel Cell Used as ...; Solution to Application Example 1.4:
  • 1.4.22. Application Example 1.5: Calculation of the Currents of a Wind-Power Plant PWM Inverter Feeding Power into the Po...Solution to Application Example 1.5:; 1.5. Effects of poor power quality on power system devices; 1.6. Standards and guidelines referring to power quality; 1.6.1. IEC 61000 Series of Standards for Power Quality; 1.6.2. IEEE-519 Standard; 1.7. Harmonic modeling philosophies; 1.7.1. Time-Domain Simulation; 1.7.2. Harmonic-Domain Simulation; 1.7.3. Iterative Simulation Techniques; 1.7.4. Modeling Harmonic Sources; 1.8. Power quality improvement techniques

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