Electric Power Transformer Engineering
Covering the fundamental theory of electric power transformers, this book provides the background required to understand the basic operation of electromagnetic induction as applied to transformers. The book is divided into three fundamental groupings: one stand-alone chapter is devoted to Theory and Principles, nine chapters individually treat major transformer types, and fourteen chapters cover many ancillary topics associated with power transformers. Throughout the book, tables, charts, photographs, and equations describe the operation and performance of power transformers and facilitate the reader's understanding of the technical material.
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ambient ANSI ANSI/IEEE application autotransformer bushing calculated capacitance capacitor characteristics circuit breaker coil component conductor connected cooling core delta devices dielectric dielectric strength differential relay dissipation factor distribution transformers dry-type transformers Electrical and Electronics Electronics Engineers Equation equipment failure fault current filter flux frequency harmonic high-voltage HVDC IEEE impedance increase inductance input inrush current installation Institute of Electrical instrument transformers insulation system leakage limited load current load loss magnetic manufacturer measurements method monitoring normal operating overvoltage partial discharge phase phase-shift phasor Piscataway power factor Power Systems power transformers primary protection rated ratio reactance resistance result saturation secondary windings series capacitance short-circuit shown in Figure shunt reactors single-phase sound levels standards step-voltage regulator substation switching tank tap changer tap winding temperature rise terminals thermal three-phase Trans transformer windings transient typically unit voltage regulation