Modeling and analysis with induction generators. (2015)
- Record Type:
- Book
- Title:
- Modeling and analysis with induction generators. (2015)
- Main Title:
- Modeling and analysis with induction generators
- Uniform Title:
- Renewable energy systems
- Further Information:
- Note: M. Godoy Simões, Felix A. Farret.
- Authors:
- Simões, M. Godoy
Farret, Felix A - Other Names:
- Simões, M. Godoy
- Contents:
- Foreword Preface Acknowledgments Authors Principles of Alternative Sources of Energy and Electric Generation Scope of This Chapter Legal Definitions Principles of Electrical Conversion Basic Definitions of Electrical Power Characteristics of Primary Sources Characteristics of Remote Industrial, Commercial, and Residential Sites and Rural Energy Selection of the Electric Generator Interfacing Primary Source, Generator, and Load Example of a Simple Integrated Generating and Energy-Storing System Solved Problems Suggested Problems References Steady-State Model of Induction Generators Scope of This Chapter Interconnection and Disconnection of the Electric Distribution Network Robustness of Induction Generators Classical Steady-State Representation of the Asynchronous Machine Generated Power Induced Torque Representation of Induction Generator Losses Measurement of Induction Generator Parameters Blocked Rotor Test (s = 1) No-Load Test (s = 0) Features of Induction Machines Working as Generators Interconnected to the Distribution Network High-Efficiency Induction Generator Doubly Fed Induction Generator Solved Problems Suggested Problems References Transient Model of Induction Generators Scope of This Chapter Induction Machine in Transient State State Space–Based Induction Generator Modeling No-Load Induction Generator State Equations of SEIG with Resistive Load, R State Equations of SEIG with RLC Load Partition of SEIG State Matrix with RLC Load Generalization of the AssociationForeword Preface Acknowledgments Authors Principles of Alternative Sources of Energy and Electric Generation Scope of This Chapter Legal Definitions Principles of Electrical Conversion Basic Definitions of Electrical Power Characteristics of Primary Sources Characteristics of Remote Industrial, Commercial, and Residential Sites and Rural Energy Selection of the Electric Generator Interfacing Primary Source, Generator, and Load Example of a Simple Integrated Generating and Energy-Storing System Solved Problems Suggested Problems References Steady-State Model of Induction Generators Scope of This Chapter Interconnection and Disconnection of the Electric Distribution Network Robustness of Induction Generators Classical Steady-State Representation of the Asynchronous Machine Generated Power Induced Torque Representation of Induction Generator Losses Measurement of Induction Generator Parameters Blocked Rotor Test (s = 1) No-Load Test (s = 0) Features of Induction Machines Working as Generators Interconnected to the Distribution Network High-Efficiency Induction Generator Doubly Fed Induction Generator Solved Problems Suggested Problems References Transient Model of Induction Generators Scope of This Chapter Induction Machine in Transient State State Space–Based Induction Generator Modeling No-Load Induction Generator State Equations of SEIG with Resistive Load, R State Equations of SEIG with RLC Load Partition of SEIG State Matrix with RLC Load Generalization of the Association of Self-Excited Generators Relationship between Torque and Shaft Oscillation Oscillation Equation Transient Simulation of Induction Generators Example of Transient Model of an Induction Generator Effect of RLC Load Connection Loss of Excitation Parallel Connection of Induction Generators Concepts Covered in This Chapter to Help Practical Design Solved Problems Suggested Problems References Self-Excited Induction Generators Scope of This Chapter Performance of Self-Excited Induction Generators Magnetizing Curves and Self-Excitation Mathematical Description of the Self-Excitation Process Series Capacitors and Composed Excitation of Induction Generators Three-Phase Generators Operating in Single-Phase Mode Solved Problems Suggested Problems References General Characteristics of Induction Generators Scope of This Chapter Torque–Speed Characteristics of Induction Generators Power versus Current Characteristics Rotor Power Factor as a Function of Rotation Nonlinear Relationship between Air-Gap Voltage Vg and Magnetizing Current Im Minimization of Laboratory Tests Example for Determining Magnetizing Curve and Magnetizing Reactance Voltage Regulation Characteristics of Rotation Comparison of Induction Generators with Other Generators Solved Problem Suggested Problems References Construction Features of Induction Generators Scope of This Chapter Electromechanical Considerations Optimization of the Manufacturing Process Types of Design Sizing the Machine Efficiency Issues Comparison of Induction Generators, PM, and Ferrite Machines Solved Problems Suggested Problems References Bibliography Power Electronics for Interfacing Induction Generators Scope of This Chapter Power Semiconductor Devices Power Electronics and Converter Circuits Regulators Inverters Protection and Monitoring Units DC to DC Conversion AC to DC Conversion Single-Phase Full-Wave Rectifiers, Uncontrolled and Controlled Types DC to AC Conversion Single-Phase H-Bridge Inverter Three-Phase Inverter Multistep Inverter Multilevel Inverter Direct AC to AC Conversion Diode-Bridge Arrangement Common-Emitter Antiparallel IGBT Diode Pair Common-Collector Antiparallel IGBT Diode Pair Power Electronics to Reduce Self-Excitation Capacitance SEIG–IMC Connection Power Electronic Controls of the IMC Stand-Alone Induction Generator Schemes Solved Problems Suggested Problems References Scalar Control for Induction Generators Scope of This Chapter Scalar Control Background Scalar Control Schemes Solved Problems Suggested Problems References Vector Control for Induction Generators Scope of This Chapter Vector Control for Induction Generators Axis Transformation Space Vector Notation Field-Oriented Control Indirect Vector Control Direct Vector Control Solved Problems Suggested Problems References Optimized Control for Induction Generators Scope of This Chapter Why Optimize Induction Generator–Based Renewable Energy Systems? Optimization Principles: Optimize Benefit or Minimize Effort Application of HCC for Induction Generators HCC-Based Maximum Power Search Fixed Step Divided Step Adaptive Step Exponential Step Practical Implementation of Incremental Steps FLC-Based Maximum Power Search Fuzzy Control of Induction Generators Description of Fuzzy Controllers Experimental Evaluation of Fuzzy Optimization Control Chapter Summary Solved Problems Suggested Problems References Doubly Fed Induction Generators Scope of This Chapter Features of DFIG Sub- and Supersynchronous Modes Operation of DFIG Interconnected and Stand-Alone Operations Field-Oriented Control of DFIG Rotor-End Converter Control Harmonic Compensation Stator Flux Orientation Front-End Converter Control Active–Reactive Power Control for a Doubly Fed Induction Generator Stand-Alone Doubly Fed Induction Generator Solved Problems Suggested Problems References Simulation Tools for Induction Generators Scope of This Chapter Design Fundamentals of Small Power Plants Simplified Design of Small Wind Power Plants Simulation of Self-Excited Induction Generators in PSpice Simulation of Self-Excited Induction Generators in Pascal Simulation of Steady-State Operation of an Induction Generator Using Microsoft Excel Simulation of Vector-Controlled Schemes Using MATLAB®/Simulink® Inputs Outputs Indirect Vector Control Direct Vector Control with Rotor Flux Direct Vector Control with Stator Flux Evaluation of the MATLAB/Simulink Program Simulation of a Self-Excited Induction Generator in PSIM Simulation of A Self-Excited Induction Generator in MATLAB Simulation of a Self-Excited Induction Generator in C</P&gt … (more)
- Edition:
- 3rd edition
- Publisher Details:
- Boca Raton : CRC Press
- Publication Date:
- 2015
- Extent:
- 1 online resource, illustrations
- Subjects:
- 621.3136
Renewable energy sources
Electric machinery, Induction - Languages:
- English
- ISBNs:
- 9781482244724
9781482244694
9781482244700 - Related ISBNs:
- 9781482244670
- Notes:
- Note: Includes bibliographical references and index.
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- Physical Locations:
- British Library HMNTS - ELD.DS.140531
- Ingest File:
- 02_123.xml