Shipboard Propulsion, Power Electronics, and Ocean Energy/Судовые двигательные установки, силовая электроника и энергия океана

Издание на английском языке
The book is a comprehensive overview of modern marine propulsion technologies, electronics, and renewable energy sources from the ocean. She covers the basics of power electronics and motors, explores electrical propulsion systems, including new technologies using permanent magnets and supercapacitors, as well as hybrid systems with fuel cells and solar energy. In addition, the book examines renewable energy from waves, sea currents, and wind farms. It also discusses important aspects of system integration, such as energy storage and reliability. This publication is intended for students of maritime academies, as well as for specialists in the field of shipbuilding and renewable energy.

Contents
Preface
Acknowledgments
About the Author
About This Book
Systems of Units and Conversion Factors
PART A Power Electronics and Motor Drives
Chapter 1 Power Electronics Devices
1. 1 Diode
1.2 Thyristor
1.3 Power Transistor
1.4 Hybrid Devices
1.5 Di/Dt and Dv/Dt Snubber Circuits
1.6 Switching Power Loss
1.7 Device Application Trends
1.8 Device Cooling and Rerating
Problems
Questions
Further Reading
Chapter 2 DC-DC Converters
2.1 Buck Converter
2.2 Boost Converter
2.3 Buck-Boost Converter
2.4 Flyback Converter (Buck or Boost)
2.5 Transformer-Coupled Forward Converter
2.6 Push-Pull Converter
2.7 Inductor-Coupled Buck Converter
2.8 Duty Ratio Control Circuit
2.9 Load Power Converter
2.10 Power Supply
Problems
Questions
Further Reading
Chapter 3 AC-DC-AC Converters
3.1 AC-DC Rectifier
3.2 AC-AC Voltage Converter
3.3 DC-AC Inverter
3.4 Frequency Converter.
3.5 Thyristor Turnoff (Commutation) Circuits
3.6 Other Power Electronics Applications
3.7 Common Converter Terms.
3.8 Notes on Converter Design
Problems
Questions
Further Reading
Chapter 4 Variable-Frequency Drives.
4.1 Pump Performance Characteristics
4.2 Pump Energy Savings with VFD
4.3 Shipboard Use of VFDs
4.4 VFD for Medium-Size Motor
4.5 Constant V/f Ratio Operation
4.6 Commutation and Control Methods
4.7 Open-Loop Control System
4.8 Vector Control Drives
4.9 Propulsion with a Twelve-Pulse VFD
4.10 Special VFD Cables
4.11 Variable-Voltage DC Motor Drive.
4.12 Variable-Speed Drive in Metro Trains
4.13 VFD as Large-Motor Starter
4.14 Converter Topologies Compared
4.15 Notes on VFDs
Problems
Questions
Further Reading
Chapter 5 Quality of Power
5.1 Power Quality Terminology.
5.2 Electrical Bus Model
5.3 Harmonics
5.4 Power Quality Studies
5.5 Harmonic Reduction
5.6 IEEE Standard 519
5.7 International Standards
Problems
Questions
Further Reading
Chapter 6 Power Converter Cooling
6.1 Heat Transfer by Conduction
6.2 Multiple Conduction Paths.
6.3 Convection and Radiation
6.4 Thermal Transient
6.5 Water Cooling
Problems
Questions
Further Reading
PART B Electric Propulsion Technologies
Chapter 7 Electric Propulsion Systems
7.1 Current Status of Electric Propulsion
7.2 Integrated Electric Propulsion
7.3 Azimuth Z Drive
7.4 Azimuth Pod Drive
7.5 Advantages of Electric Propulsion
7.6 Electric Propulsion Architecture
7.7 Motor Drives and Speed Control
7.8 Power Electronics Converters for VFD
7.9 Propulsion Power Requirement
Questions
Further Reading
Chapter 8 Propulsion Motors
8.1 Synchronous Motor
8.2 Induction Motor
8.3 Permanent Magnet Motor
8.4 Superconducting Synchronous Motor
8.5 Superconducting Homopolar Motor
8.6 Other Motor Types
8.7 Other Components
8.8 Notes on Propulsion Motors
Questions
Further Reading
Chapter 9 Superconductors in Navy Ships
9.1 Superconductivity
9.2 Degaussing Coil
9.3 Synchronous Machines
9.4 Superconducting Energy Storage
9.5 Industry Applications
9.6 Research Applications
9.7 Critical B, J, T of the Superconductor
9.8 Coil Design and Cooling
Questions.
Further Reading.
Chapter 10 Fuel Cell Power
10.1 Electrochemistry
10.2 Electrical Performance
10.3 Common Fuel Cell Types
10.4 Present and Future Use
10.5 Present Development Issues
Questions
Further Reading
Chapter 11 Hybrid Propulsion
11.1 Environmental Regulations
11.2 Hybrid Tugboat
11.3 Hybrid Ferry
11.4 Hybrid Automobile
11.5 Magnetohydrodynamics Propulsion in Ships
Questions
Further Reading
Part C Emerging Ocean Energy Technologies
Chapter 12 Ocean Wave Power
12.1 Wave Power Estimate
12.2 Power Generation Schemes
Questions.
Further Reading
Chapter 13 Marine Current Power.
13.1 Speed and Power Relations.
13.2 Present Developments
Questions
Further Reading
Chapter 14 Offshore Wind Power
14.1 Wind Power Theory
14.2 Offshore Advantages.
14.3 Power Transmission to Shore
14.4 AC versus DC Cable
14.5 Offshore Foundations
14.6 Farshore Foundations
14.7 Installations and Maintenance
14.8 Forces on Structure
14.9 Materials and Corrosion
14.10 Offshore Wind Power Trends
14.11 Environmental Regulations
14.12 International Safety Regulation
Questions
Further Reading
Part D System Integration Aspects
Chapter 15 Large-Scale Energy Storage
15.1 Electrochemical Battery
15.2 Supercapacitor
15.3 Rotating Flywheel
15.4 Superconducting Coil
15.5 Compressed Air
Questions
Further Reading
Chapter 16 System Reliability Fundamentals
16.1 Failure Mechanisms
16.2 Aging of Power Electronics Devices
16.3 Failure Rate in Time
16.4 Random Failures
16.5 Fundamental Theorems of Reliability
16.6 Series-Parallel Reliability
16.7 Redundancies
16.8 Failure Rate Statistics
16.9 Mil-Hdbk-217
16.10 Part Count Method of Reliability Estimate
16.11 Derating for Reliability
16.12 Quick Estimate of Failure Rate
16.13 Failure Modes. Effects, and Criticality Analysis
Questions
Further Reading
Index