Electromagnetic Analysis and Condition Monitoring of Synchronous - Generator

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Electromagnetic Analysis and Condition Monitoring of Synchronous Generators
 
Discover an insightful and complete overview of electromagnetic analysis and fault diagnosis in large synchronous generators
 
In Electromagnetic Analysis and Condition Monitoring of Synchronous Generators, a team of distinguished engineers delivers a comprehensive review of the electromagnetic analysis and fault diagnosis of synchronous generators. Beginning with an introduction to several types of synchronous machine structures, the authors move on to the most common faults found in synchronous generators and their impacts on performance.
 
The book includes coverage of different modeling tools, including the finite element method, winding function, and magnetic equivalent circuit, as well as various types of health monitoring systems focusing on the magnetic field, voltage, current, shaft flux, and vibration. Finally, Electromagnetic Analysis and Condition Monitoring of Synchronous Generators covers signal processing tools that can help identify hidden patterns caused by faults and machine learning tools enabling automated condition monitoring.
 
The book also includes:
* A thorough introduction to condition monitoring in electric machines and its importance to synchronous generators
* Comprehensive explorations of the classification of synchronous generators, including armature arrangement, machine construction, and applications
* Practical discussions of different types of electrical and mechanical faults in synchronous generators, including short circuit faults, eccentricity faults, misalignment, core-related faults, and broken damper bar faults
* In-depth examinations of the modeling of healthy and faulty synchronous generators, including analytical and numerical methods
 
Perfect for engineers working in electrical machine analysis, maintenance, and fault detection, Electromagnetic Analysis and Condition Monitoring of Synchronous Generators is also an indispensable resource for professors and students in electrical power engineering.

List of contents

Author Biographies
 
Preface
 
Chapter 1 Introduction
 
1.1. Introduction to Condition Monitoring of Electric Machines
 
1.2. Importance of Synchronous Generators
 
1.3. Economic Aspects and Advantages
 
1.4. Intention of the Book
 
Chapter 2 Operation Principles, Structure, and Design of Synchronous Generators
 
2.1. Introduction
 
2.3. Types and Constructions of Synchronous Machines
 
2.4. Voltage Equation and Rated Power of the Synchronous Generator
 
2.5. Synchronous Generator Model Parameters
 
2.6. Different Operating Modes of Synchronous Machines
 
2.7. Damper Bars in Synchronous Generators
 
2.8. Losses and Efficiency in Synchronous Generators
 
2.9. High-Voltage Synchronous Generators
 
2.10. Preliminary Design Considerations
 
2.11. Stator Design Considerations
 
2.12. Summary
 
Chapter 3 Transformed Models and Parameter Identification of Synchronous Generators
 
3.1. Introduction
 
3.2. Multi-Phase Synchronous Generator Modeling Based on Park Equations
 
3.4. Parameter Estimation Algorithms
 
3.5. Parameter Accuracy Increments by Considering Saturation
 
3.6. Fault Detection Based on Parameter Deviation
 
3.7. Summary
 
Chapter 4 Introduction to Different Types of Faults in Synchronous Generators
 
4.1. Reasons for Condition Monitoring of Synchronous Generators
 
4.2. Different Faults in Synchronous Generators
 
4.3. Main Factors Leading to Electrical Machine Damage
 
4.4. Major Destruction Factors of Stator Winding
 
4.5. Common Faults in Stator Winding
 
4.6. Rotor Field Winding Fault
 
4.7. Eccentricity Faults
 
4.8. Misalignment Faults
 
4.9. Damper Winding Fault
 
4.10. Summary
 
Chapter 5 Laboratory Scale Implementation
 
5.1. Introduction
 
5.2. Salient Pole Synchronous Generator
 
5.3. Induction Motor
 
5.4. Gearbox
 
5.5. Converter
 
5.6. Rotor Magnetization Unit
 
5.7. DC Power Supply
 
5.8. Local Passive Load
 
5.9. Sensors
 
5.10. Data Acquisition
 
5.11. Fault Implementation
 
5.12. Noise Considerations
 
5.13. Summary
 
Chapter 6. Analytical Modeling Based on Wave and Permeance Method
 
6.1. Introduction
 
6.2. Eccentricity Fault Definition
 
6.3. The Air Gap Magnetic Field
 
6.4. The Electromotive Force in Stator Terminals
 
6.5. The Stator Current
 
6.6. Force Density and Unbalanced Magnetic Pull
 
6.7. Stator Slotting Effects
 
6.8. Magnetic Saturation Effects
 
6.9. The Mixed Eccentricity Fault
 
6.10. The Air Gap Magnetic Field
 
6.11. Induced Electromotive Force in Stator Terminals
 
6.12. Force Density and Unbalanced Magnetic Pull
 
6.13. Short Circuit Modeling
 
6.14. Air Gap Permeance Under a Short Circuit Fault
 
6.15. Force Density and Unbalanced Magnetic Pull under a Rotor Inter-turn Short Circuit Fault
 
6.16.Summary
 
Chapter 7 Analytical Modeling Based on Winding Function Methods
 
7.1. Introduction
 
7.2. History and Usage of the WFM
 
7.3. Winding Function Modeling of a Synchronous Generator
 
7.4. Mutual Inductance Calculation Between the Stator Phases
 
7.5. The Mutual Inductance Between the Stator and Rotor
 
7.6. The Self Inductance of the Rotor
 
7.7. Derivative Forms of Synchronous Generator Inductances
 
7.8. A Practical Case study
 
7.9. Healthy C

About the author

Hossein Ehya, PhD, is a Research Fellow in the Department of Electrical Power Engineering at the Norwegian University of Science and Technology (NTNU). He has been working on the health monitoring of electric machines since 2010. From 2013 to 2018, he also worked as an electrical machine design engineer who designed over 30 industrial electric machines. Dr. Ehya was the recipient of several innovation awards from NTNU and the Research Council of Norway. His current research activities include the development of an automated health monitoring system for electric aviation and renewable energies. Jawad Faiz, PhD, is Professor at the School of Electrical and Computer Engineering at the University of Tehran, Iran, where his research interests are the design, modeling and fault diagnosis of electrical machines and transformers. He is a senior member of the IEEE, a Fellow of the Iran Academy of Sciences, and the member of Euro-Med Academy of Sciences and Arts. He has published more than 300 journal papers and presented about the same number of conference papers. He published two books by Springer and IET in the above-mentioned fields. Prof. Faiz was the recipient of several international and national awards for his research activities.

Summary

Electromagnetic Analysis and Condition Monitoring of Synchronous Generators

Discover an insightful and complete overview of electromagnetic analysis and fault diagnosis in large synchronous generators

In Electromagnetic Analysis and Condition Monitoring of Synchronous Generators, a team of distinguished engineers delivers a comprehensive review of the electromagnetic analysis and fault diagnosis of synchronous generators. Beginning with an introduction to several types of synchronous machine structures, the authors move on to the most common faults found in synchronous generators and their impacts on performance.

The book includes coverage of different modeling tools, including the finite element method, winding function, and magnetic equivalent circuit, as well as various types of health monitoring systems focusing on the magnetic field, voltage, current, shaft flux, and vibration. Finally, Electromagnetic Analysis and Condition Monitoring of Synchronous Generators covers signal processing tools that can help identify hidden patterns caused by faults and machine learning tools enabling automated condition monitoring.

The book also includes:
* A thorough introduction to condition monitoring in electric machines and its importance to synchronous generators
* Comprehensive explorations of the classification of synchronous generators, including armature arrangement, machine construction, and applications
* Practical discussions of different types of electrical and mechanical faults in synchronous generators, including short circuit faults, eccentricity faults, misalignment, core-related faults, and broken damper bar faults
* In-depth examinations of the modeling of healthy and faulty synchronous generators, including analytical and numerical methods

Perfect for engineers working in electrical machine analysis, maintenance, and fault detection, Electromagnetic Analysis and Condition Monitoring of Synchronous Generators is also an indispensable resource for professors and students in electrical power engineering.