Electrical Power Engineering
A valuable introduction to key concepts in electric power engineering for both entry-level and seasoned professionals. Table of Contents: 1. Energy Sources and Electric Power; 2. Magnetic Fields and Magnetic Circuits; 3. The Power Transformer; 4. Synchronous Machines; 5. D.C. Machines; 6. Induction Machines; 7. The Electric Power System Network; Appendix: Complex Numbers, Phasors, Impedances, and Polyphase Circuits. 200 illustrations.
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Energy Sources and Electric Power
Magnetic Fields and Magnetic Circuits
The Power Transformer
7 other sections not shown
air-gap armature current armature resistance Calculate capacitance capacitor cogeneration coil complex number conductor connected constant copper loss core losses dc machine efficiency electric power electromagnetic energy equations equivalent circuit Example ferromagnetic field current field resistance Figure flux density frequency given heat impedance induced voltage induction motor lagging leakage line current line to ground line to line line voltage magnetic circuit magnetic field magnetic flux magnetization curve magnetomotive force no-load one-line diagram open-circuit operating output parameters per-unit percent phase voltage phasor diagram pole power angle power factor power plant power system power transmission line Pressurized water reactor primary rated reactive power reactor rotating rotor shown in Fig shunt single-phase transformers sinusoidal solution stator steady-state steam Substituting Eq symmetrical components synchronous machine synchronous speed terminal voltage torque transmission line turbine voltage drop voltage regulation winding Y-connected zero sequence zero-sequence