| Description |
1 online resource (975 pages) |
| Series |
IEEE Press Series on Power Engineering |
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IEEE Press series on power engineering.
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| Contents |
HANDBOOK OF ELECTRICAL POWER SYSTEM DYNAMICS: Modeling, Stability, and Control; CONTENTS; FOREWORD; ACKNOWLEDGMENTS; CONTRIBUTORS; 1. INTRODUCTION; PART I: POWER SYSTEM MODELING AND CONTROL; 2. SYNCHRONOUS GENERATOR AND INDUCTION MOTOR; 2.1. Theory and Modeling of Synchronous Generator; 2.1.1. Design and Operation Principles; 2.1.2. Electromechanical Model of Synchronous Generator: Swing Equation; 2.1.3. Electromagnetic Model of Synchronous Generator; 2.1.3.1. Basic Equations; 2.1.3.2. Park Transformation; 2.1.3.3. Park Equations of Synchronous Generator |
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2.1.3.4. Representation of Synchronous Generator Equations in Per Unit2.1.3.5. Equivalent Circuits for the d- and q-Axes; 2.1.3.6. Steady-State Operation of the Synchronous Generator; 2.1.3.7. Synchronous Generator Behavior on Terminal Short Circuit; 2.1.4. Synchronous Generator Parameters; 2.1.4.1. Operational Parameters; 2.1.4.2. Standard Parameters; 2.1.5. Magnetic Saturation; 2.1.5.1. Open-Circuit and Short-Circuit Characteristics; 2.1.5.2. Considering the Saturation in Stability Studies; 2.1.6. Modeling in Dynamic State; 2.1.6.1. Simplified Electromagnetic Models |
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2.1.6.2. Detailed Model in Dynamic State2.1.7. Reactive Capability Limits; 2.1.7.1. Loading Capability Chart; 2.1.7.2. The V Curves; 2.1.8. Description and Modeling of the Excitation Systems; 2.1.8.1. Components and Performances of Excitation Control System; 2.1.8.2. Types and Modeling of Excitation Systems; 2.1.8.3. Control and Protective Functions; 2.1.8.4. Example; 2.2. Theory and Modeling of the Induction Motor; 2.2.1. Design and Operation Issues; 2.2.2. General Equations of the Induction Motor; 2.2.2.1. Electrical Circuit Equations; 2.2.2.2. The d-q Transformation |
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2.2.2.3. Basic Equations in the d-q Reference Frame2.2.2.4. Electric Power and Torque; 2.2.3. Steady-State Operation of the Induction Motor; 2.2.4. Electromechanical Model of Induction Motor; 2.2.5. Electromagnetic Model of Induction Motor; References; 3. MODELING THE MAIN COMPONENTS OF THE CLASSICAL POWER PLANTS; 3.1. Introduction; 3.2. Types of Turbines; 3.2.1. Steam Turbines; 3.2.2. Gas Turbines; 3.2.3. Hydraulic Turbines; 3.3. Thermal Power Plants; 3.3.1. Generalities; 3.3.2. Boiler and Steam Chest Models; 3.3.3. Steam System Configurations; 3.3.4. General Steam System Model |
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3.3.5. Governing Systems for Steam Turbines3.3.5.1. Mechanical Hydraulic Control (MHC); 3.3.5.2. Electrohydraulic Control (EHC); 3.3.5.3. Digital Electrohydraulic Control (DEHC); 3.3.5.4. General Model for Speed Governing Systems; 3.4. Combined-Cycle Power Plants; 3.4.1. Generalities; 3.4.2. Configurations of Combined-Cycle Power Plants; 3.4.3. Model Block Diagrams of Combined-Cycle Power Plant; 3.5. Nuclear Power Plants; 3.6. Hydraulic Power Plants; 3.6.1. Generalities; 3.6.2. Modeling of Hydro Prime Mover Systems and Controls; 3.6.2.1. General Block Diagram |
| Summary |
This book aims to provide insights on new trends in power systems operation and control and to present, in detail, analysis methods of the power system behavior (mainly its dynamics) as well as the mathematical models for the main components of power plants and the control systems implemented in dispatch centers. Particularly, evaluation methods for rotor angle stability and voltage stability as well as control mechanism of the frequency and voltage are described. Illustrative examples and graphical representations help readers across many disciplines acquire ample knowledge on the respective |
| Notes |
3.6.2.2. Modeling of Turbine Conduit Dynamics |
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Print version record |
| Subject |
Electric power system stability -- Mathematical models -- Handbooks, manuals, etc
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Electric power systems -- Control -- Handbooks, manuals, etc
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Electric machinery -- Dynamics -- Handbooks, manuals, etc
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Electric machinery -- Dynamics
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Electric power system stability -- Mathematical models
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Electric power systems -- Control
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| Genre/Form |
Handbooks and manuals
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| Form |
Electronic book
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| ISBN |
9781118516041 |
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1118516044 |
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