Verfügbarkeit: Fundamentals of electric power engineering /

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 text presents a concise and rigorous exposition of the main fundamentals of electric power engineering. Contained in a single volume,...

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Bibliographische Detailangaben
1. Verfasser:	Mayergoyz, I. D.
Weitere Verfasser:	McAvoy, Patrick
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	[Hackensack] New Jersey : World Scientific Publishing, [2014]
Schlagworte:	Electric power systems. Réseaux électriques (Énergie) TECHNOLOGY & ENGINEERING > Mechanical. Electric power systems
Online-Zugang:	DE-862 DE-863
Zusammenfassung:	Electric power engineering has always been an integral part of electrical engineering education. Providing a unique alternative to existing books on the market, this text presents a concise and rigorous exposition of the main fundamentals of electric power engineering. Contained in a single volume, the materials can be used to teach three separate courses -- electrical machines, power systems and power electronics, which are in the mainstream of the electrical engineering curriculum of most universities worldwide. The book also highlights an in-depth review of electric and magnetic circuit theory with emphasis on the topics which are most relevant to electric power engineering.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9814616591 9789814616591

Internformat

MARC


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245	1	0	\|a Fundamentals of electric power engineering / \|c Isaak D. Mayergoyz, University of Maryland, USA, Patrick McAvoy, University of Maryland, USA.
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505	0		\|a Contents -- Preface -- 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
505	8		\|a 3.2 Application of Magnetic Circuit Theory to the Calculation of Inductance and Mutual Inductance3.3 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
505	8		\|a 2.4 Analysis of Faults by Using Sequence Networks3. 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
505	8		\|a 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
505	8		\|a 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
520			\|a Electric power engineering has always been an integral part of electrical engineering education. Providing a unique alternative to existing books on the market, this text presents a concise and rigorous exposition of the main fundamentals of electric power engineering. Contained in a single volume, the materials can be used to teach three separate courses -- electrical machines, power systems and power electronics, which are in the mainstream of the electrical engineering curriculum of most universities worldwide. The book also highlights an in-depth review of electric and magnetic circuit theory with emphasis on the topics which are most relevant to electric power engineering.
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650		6	\|a Réseaux électriques (Énergie)
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Datensatz im Suchindex

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contents	Contents -- Preface -- 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 Inductance3.3 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 Networks3. 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
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publisher	World Scientific Publishing,
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spelling	Mayergoyz, I. D. https://id.oclc.org/worldcat/entity/E39PCjrGcWpwpwqwcFRJcKB44m http://id.loc.gov/authorities/names/n90644112 Fundamentals of electric power engineering / Isaak D. Mayergoyz, University of Maryland, USA, Patrick McAvoy, University of Maryland, USA. [Hackensack] New Jersey : World Scientific Publishing, [2014] ©2015 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. Contents -- Preface -- 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 Inductance3.3 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 Networks3. 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 Electric power engineering has always been an integral part of electrical engineering education. Providing a unique alternative to existing books on the market, this text presents a concise and rigorous exposition of the main fundamentals of electric power engineering. Contained in a single volume, the materials can be used to teach three separate courses -- electrical machines, power systems and power electronics, which are in the mainstream of the electrical engineering curriculum of most universities worldwide. The book also highlights an in-depth review of electric and magnetic circuit theory with emphasis on the topics which are most relevant to electric power engineering. Electric power systems. http://id.loc.gov/authorities/subjects/sh85041921 Réseaux électriques (Énergie) TECHNOLOGY & ENGINEERING Mechanical. bisacsh Electric power systems fast McAvoy, Patrick. https://id.oclc.org/worldcat/entity/E39PCjCcB69yXgMRp8XkqVXdFC http://id.loc.gov/authorities/names/n2014041814 has work: Fundamentals of electric power engineering (Text) https://id.oclc.org/worldcat/entity/E39PCGmQJkgPMXTXMJHpmvfwYd https://id.oclc.org/worldcat/ontology/hasWork Print version: 9789814616584 9814616583 (DLC) 2014028094
spellingShingle	Mayergoyz, I. D. Fundamentals of electric power engineering / Contents -- Preface -- 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 Inductance3.3 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 Networks3. 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 Electric power systems. http://id.loc.gov/authorities/subjects/sh85041921 Réseaux électriques (Énergie) TECHNOLOGY & ENGINEERING Mechanical. bisacsh Electric power systems fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85041921
title	Fundamentals of electric power engineering /
title_auth	Fundamentals of electric power engineering /
title_exact_search	Fundamentals of electric power engineering /
title_full	Fundamentals of electric power engineering / Isaak D. Mayergoyz, University of Maryland, USA, Patrick McAvoy, University of Maryland, USA.
title_fullStr	Fundamentals of electric power engineering / Isaak D. Mayergoyz, University of Maryland, USA, Patrick McAvoy, University of Maryland, USA.
title_full_unstemmed	Fundamentals of electric power engineering / Isaak D. Mayergoyz, University of Maryland, USA, Patrick McAvoy, University of Maryland, USA.
title_short	Fundamentals of electric power engineering /
title_sort	fundamentals of electric power engineering
topic	Electric power systems. http://id.loc.gov/authorities/subjects/sh85041921 Réseaux électriques (Énergie) TECHNOLOGY & ENGINEERING Mechanical. bisacsh Electric power systems fast
topic_facet	Electric power systems. Réseaux électriques (Énergie) TECHNOLOGY & ENGINEERING Mechanical. Electric power systems
work_keys_str_mv	AT mayergoyzid fundamentalsofelectricpowerengineering AT mcavoypatrick fundamentalsofelectricpowerengineering

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