Fundamentals of electric power engineering
Electric power engineering has always been an integral part of electrical engineering education. Providing a unique alternative to existing books on the market, this compendium provides a concise and rigorous exposition of the main fundamentals of electric power engineering
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| Main Authors: | , |
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| Format: | Book |
| Language: | English |
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New Jersey
World Scientific
2015
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Table of Contents:
- Part I: Review of Electric and Magnetic Circuit Theory--1. Basic Electric Circuit Theory--1.1 Review of Basic Equations of Electric Circuit Theory--1.2 Phasor Analysis of AC Electric Circuits--1.3 Phasor Diagrams--2. Analysis of Electric Circuits with Periodic Non-sinusoidal Sources--2.1 Fourier Series Analysis--2.2 Frequency-Domain Technique--2.3 Time-Domain Technique--3. Magnetic Circuit Theory--3.1 Basic Equations of Magnetic Circuit Theory--3.2 Application of Magnetic Circuit Theory to the Calculation of Inductance and Mutual Inductance--3.3 Magnetic Circuits with Permanent Magnets--3.4 Nonlinear Magnetic Circuits--3.5 Hysteresis and Eddy Current Losses--Problems-- Part II: Power Systems--1. Introduction to Power Systems--1.1 Brief Overview of Power System Structure--1.2 Three-Phase Circuits and Their Analysis--1.3 AC Power and Power Factor--2. Fault Analysis--2.1 Fault Analysis by Using the Thevenin Theorem--2.2 Symmetrical Components--2.3 Sequence Networks--2.4 Analysis of Faults by Using Sequence Networks--3. Transformers--3.1 Design and Principle of Operation of the Transformer; The Ideal Transformer--3.2 Coupled Circuit Equations and Equivalent Circuit for the Transformer--3.3 Determination of Parameters of Equivalent Circuits; Three-Phase Transformers--4. Synchronous Generators--4.1 Design and Principle of Operation of Synchronous Generators--4.2 Ideal Cylindrical Rotor Synchronous Generators and Their Armature Reaction Magnetic Fields--4.3 Design of Stator Windings and Their Reactances--4.4 Two-Reactance Theory for Salient Pole Synchronous Generators Power of Synchronous Generators--5. Power Flow Analysis and Stability of Power Systems--5.1 Power Flow Analysis--5.2 Newton-Raphson and Continuation Methods--5.3 Stability of Power Systems--6. Induction Machines--6.1 Design and Principle of Operation of Induction Machines--6.2 Coupled Circuit Equations and Equivalent Circuits for Induction Machines--6.3 Torque-Speed Characteristics of the Induction Motor--Problems-- Part III: Power Electronics--1. Power Semiconductor Devices--1.1 Introduction Basic Facts Related to Semiconductor Physics--1.2 P-N Junctions and Diodes--1.3 BJT and Thyristor--1.4 MOSFET, Power MOSFET, IGBT--1.5 Snubbers and Resonant Switches--2. Rectifiers--2.1 Single-Phase Rectifiers with RL Loads--2.2 Single-Phase Rectifiers with RC and RLC Loads--2.3 Three-Phase Diode Rectifiers--2.4 Phase-Controlled Rectifiers--3. Inverters--3.1 Single-Phase Bridge Inverter--3.2 Pulse Width Modulation (PWM)--3.3 Three-Phase Inverters; AC-to-AC Converters and AC Motor Drives