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Principles of power engineering analysis / Robert C. Degeneff, M. Harry Hesse.
AUTOR:
Robert C. Degeneff - M. Harry Hesse
ISBN:
9781439892312
IDIOMA:
eng
PÁGINAS:
XXII, 428
AÑO:
2012
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RESUMEN
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Principles of Power Engineering Analysis presents the basic tools required to understand the components in an electric power transmission system. Classroom-tested at Rensselaer Polytechnic Institute, this text is the only up-to-date one available that covers power system analysis at the graduate level. The book explains from first principles the expressions that predict the performance of transmission systems and transformers. It then extends these concepts to balanced three-phase systems and unbalanced systems. The authors proceed to introduce symmetrical component analysis of transmission systems, three-phase transformers, and faulted systems. They also describe the design of untransposed transmission lines and discuss other analysis component systems, such as Clarke component networks. Despite the tremendous changes that have occurred in the electrical industry over the last forty years, the need for a fundamental understanding of power system analysis has not changed. Suitable for a one-semester course, this book develops the necessary concepts in depth and illustrates the application of three-phase electric power transmission.
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More Product Information
Title: Principles of Power Engineering Analysis
Illustrations & Other Content Notes: 200 black & white illustrations
ISBN 13: 9781439892312
ISBN 10: 1439892318
Publisher: Taylor & Francis Inc
Publication Date: 03/01/2012
Pages: 452
Imprint: CRC Press Inc
'Principles of Power Engineering Analysis' Contents:
Transmission Line Characteristics The Magnetic Field The Electric Field Induced Voltages Conductor Resistance Conductance (Leakage) Transmission Line Performance Models References Single-Phase Transformers Ideal Single-Phase Two-Winding Transformer Practical Two-Winding Transformer Per Unit Quantities Transformer Polarity Designation Transformers with Taps Autotransformers Multiwinding Transformers Magnetic Energy in Transformers Magnetic Energy Method for Reconnected Windings Balanced Three-Phase Systems Wye-Connected Loads Delta-Connected Loads Three-Phase Per Unit System Transmission Lines Equivalent Circuits for Y-Y and ae -ae Transformers Wye-Delta Connected Transformers Magnetizing Currents in Three-Phase Transformers Steady State Power Transfer Steady-State Synchronous Machine Characteristics Three-Phase Four-Wire Network Unbalanced Three-Phase Systems Open Delta Connections Single-Phase Load Carrying Capability Symmetrical Components Elementary Fault Interconnections References Symmetrical Component Representation of Transmission Lines Series Impedance Numerical Example Single-Circuit Untransposed Line -- Electromagnetic Unbalance Transposed Line Sections Double-Circuit Lines Numerical Example Double Circuit Untransposed Line -- Electromagnetic Unbalance Shunt Capacitive Reactance Numerical Example Single-Circuit Untransposed Line -- Electrostatic Unbalance Double-Circuit Lines Numerical Example References Symmetrical Component Representation of Transformers Phase Shift through Y-ae Transformers Zero Sequence Impedance of Y-Y Transformers Zero Sequence Impedance of ae -ae Transformer Zero Sequence Impedance of Y-GND-ae Transformer Zero Sequence Impedance of Three-Winding Transformers Grounding Transformers Three-Phase Autotransformers Zero Sequence Network for ae Tertiary Autotrans Autotransformer with Ungrounded Neutral and ae Tertiary References Symmetrical Component Fault Analysis Symmetrical Three-Phase System Generator Representation Single-Line-to-Ground Fault (SLGF) Single-Line-to-Neutral Fault (SLNF) Line-to-Line Fault (LLF) Line-to-Line-to-Ground Fault (LLGF) Line-to-Line-to-Neutral Fault (LLNF) Single Open Conductor (SOC) Two Open Conductors (TOC) Generalized Series Impedances Generalized Shunt Impedance Unbalances Simultaneous Faults Faults Not Symmetrical with Respect to Phase "a" Design of Untransposed Transmission Lines Symmetrical Phase Impedance Matrix Unsymmetrical Symmetrical Component Impedance Matrix Selecting Phase "a" Central to Phases "b" and "c" Symmetrical Form for the Symmetrical Component Impedance Matrix Equivalent Circuit Configuration Phase Rotation Phase Transposition Other Component Systems Clarke Components Clarke Component Impedance in Terms of Symmetrical Component Impedances Clarke Component Networks Tests for Clarke Component Impedances Three-Phase Fault SLGF LLF Generalized Clarke Component Network Interconnections for Series Impedance Unbalance Y-ae Transformers Transient Solutions by Component Systems References Appendix A: Principles of Electricity and Magnetism Appendix B: Concept of Flux-Linkage and Inductance Appendix C: Electromagnetic Field above a Perfectly Conducting Plane Appendix D: Carson's Earth-Return Correction Factors Appendix E: Matrix Algebra Appendix F: Magnetic Energy in Transformers Appendix G: Exciting Current in Three-Legged Core-Type Transformer Appendix H: Hyperbolic Functions Appendix I: Equivalent Networks Appendix J: Y-ae Relationships Appendix K: Analysis of Electromagnetic Circuits Appendix L: List of Symbols and Contexts Index Exercises appear at the end of each chapter.
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About Robert C. Degeneff, M. Harry Hessee
Robert C. Degeneff is the founder and president of Utility Systems Technologies, Inc., which builds electronic voltage regulators and power quality mitigation equipment and provides consulting to the utility industry. A recipient of the IEEE Herman Halprin Award, Dr. Degeneff is also a professor emeritus at Rensselaer Polytechnic Institute, a PE in New York, a fellow of the IEEE, and chair of the IEEE working group that wrote the C57.142 guide. His research interests include computing the transient response of electrical equipment, power quality, and utility systems planning. M. Harry Hesse was a professor emeritus at Rensselaer Polytechnic Institute. A Fulbright fellow and recipient of the Power Engineering Educator Award from Edison Electrical Institute, he was also a PE in New York and a fellow of the IEEE.
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INDICE
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Transmission Line Characteristics The Magnetic Field The Electric Field Induced Voltages Conductor Resistance Conductance (Leakage) Transmission Line Performance Models References Single-Phase Transformers Ideal Single-Phase Two-Winding Transformer Practical Two-Winding Transformer Per Unit Quantities Transformer Polarity Designation Transformers with Taps Autotransformers Multiwinding Transformers Magnetic Energy in Transformers Magnetic Energy Method for Reconnected Windings Balanced Three-Phase Systems Wye-Connected Loads Delta-Connected Loads Three-Phase Per Unit System Transmission Lines Equivalent Circuits for Y-Y and ae -ae Transformers Wye-Delta Connected Transformers Magnetizing Currents in Three-Phase Transformers Steady State Power Transfer Steady-State Synchronous Machine Characteristics Three-Phase Four-Wire Network Unbalanced Three-Phase Systems Open Delta Connections Single-Phase Load Carrying Capability Symmetrical Components Elementary Fault Interconnections References Symmetrical Component Representation of Transmission Lines Series Impedance Numerical Example Single-Circuit Untransposed Line -- Electromagnetic Unbalance Transposed Line Sections Double-Circuit Lines Numerical Example Double Circuit Untransposed Line -- Electromagnetic Unbalance Shunt Capacitive Reactance Numerical Example Single-Circuit Untransposed Line -- Electrostatic Unbalance Double-Circuit Lines Numerical Example References Symmetrical Component Representation of Transformers Phase Shift through Y-ae Transformers Zero Sequence Impedance of Y-Y Transformers Zero Sequence Impedance of ae -ae Transformer Zero Sequence Impedance of Y-GND-ae Transformer Zero Sequence Impedance of Three-Winding Transformers Grounding Transformers Three-Phase Autotransformers Zero Sequence Network for ae Tertiary Autotrans Autotransformer with Ungrounded Neutral and ae Tertiary References Symmetrical Component Fault Analysis Symmetrical Three-Phase System Generator Representation Single-Line-to-Ground Fault (SLGF) Single-Line-to-Neutral Fault (SLNF) Line-to-Line Fault (LLF) Line-to-Line-to-Ground Fault (LLGF) Line-to-Line-to-Neutral Fault (LLNF) Single Open Conductor (SOC) Two Open Conductors (TOC) Generalized Series Impedances Generalized Shunt Impedance Unbalances Simultaneous Faults Faults Not Symmetrical with Respect to Phase "a" Design of Untransposed Transmission Lines Symmetrical Phase Impedance Matrix Unsymmetrical Symmetrical Component Impedance Matrix Selecting Phase "a" Central to Phases "b" and "c" Symmetrical Form for the Symmetrical Component Impedance Matrix Equivalent Circuit Configuration Phase Rotation Phase Transposition Other Component Systems Clarke Components Clarke Component Impedance in Terms of Symmetrical Component Impedances Clarke Component Networks Tests for Clarke Component Impedances Three-Phase Fault SLGF LLF Generalized Clarke Component Network Interconnections for Series Impedance Unbalance Y-ae Transformers Transient Solutions by Component Systems References Appendix A: Principles of Electricity and Magnetism Appendix B: Concept of Flux-Linkage and Inductance Appendix C: Electromagnetic Field above a Perfectly Conducting Plane Appendix D: Carson's Earth-Return Correction Factors Appendix E: Matrix Algebra Appendix F: Magnetic Energy in Transformers Appendix G: Exciting Current in Three-Legged Core-Type Transformer Appendix H: Hyperbolic Functions Appendix I: Equivalent Networks Appendix J: Y-ae Relationships Appendix K: Analysis of Electromagnetic Circuits Appendix L: List of Symbols and Contexts Index Exercises appear at the end of each chapter.
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