Ocean Wave Energy Systems: Hydrodynamics, Power Takeoff and Control Systems
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- Artikel-Nr.: 10430391
Beschreibung
Wave Energy Potential
Wave Energy Convertors
Direct Absorber for Wave Energy Conversion
Development of Oscillating Water Column and Wave Overtopping - Wave Energy Converters in Europe Over the Year
Performance Characteristics of An OWC In Regular and Random Waves
Wave Induced Pressures and Forces on An OWC
Hydrodynamic Performance Characteristics Of U-OWC Devices
CFD Modelling of OWC Devices for Wave Energy Harnessing
Numerical Modelling Techniques for Wave Energy Converters in Arrays
Hydrodynamic Performance of An Array of OWC Devices Integrated with Breakwater
Power Take-off Devices for Wave Energy Converters
Wells Turbine as A Power Take Off Mechanism for Wave Energy Converters
Experimental Testing of Air Turbines for Wave Energy Conversion
Passive Flow Control of Wave Energy Conversion Devices
Optimization of An Impulse Turbine for Efficient
Control of Wave Energy Converters
Recent Advances in Direct-Drive Power Take-Off (DDPTO) Systems for Wave Energy Converters Based on Switched Reluctance Machines
Grid Integration of Wave Energy Devices
Wave Energy Convertors
Direct Absorber for Wave Energy Conversion
Development of Oscillating Water Column and Wave Overtopping - Wave Energy Converters in Europe Over the Year
Performance Characteristics of An OWC In Regular and Random Waves
Wave Induced Pressures and Forces on An OWC
Hydrodynamic Performance Characteristics Of U-OWC Devices
CFD Modelling of OWC Devices for Wave Energy Harnessing
Numerical Modelling Techniques for Wave Energy Converters in Arrays
Hydrodynamic Performance of An Array of OWC Devices Integrated with Breakwater
Power Take-off Devices for Wave Energy Converters
Wells Turbine as A Power Take Off Mechanism for Wave Energy Converters
Experimental Testing of Air Turbines for Wave Energy Conversion
Passive Flow Control of Wave Energy Conversion Devices
Optimization of An Impulse Turbine for Efficient
Control of Wave Energy Converters
Recent Advances in Direct-Drive Power Take-Off (DDPTO) Systems for Wave Energy Converters Based on Switched Reluctance Machines
Grid Integration of Wave Energy Devices
Eigenschaften
| Breite: | 155 |
| Höhe: | 235 |
| Seiten: | 578 |
| Sprachen: | Englisch |
| Autor: | Abdus Samad, Paresh Halder, S.A Sannasiraj, V. Sundar |
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