| Experimental Assessment of Flow, Performance, and Loads for Tidal Turbines in a Closely-Spaced Array |
10.3390/en13081977 |
MDPI |
13 |
| Utilization of the New Wave Power Convertor for the Improvement of the Marine Environment |
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Japan Agency for Marine-Earth Science and Technology |
27 |
| Indian Scenario of Wave Energy Technology |
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Inpressco |
Special Issue |
| Wave Energy Resource Evaluation and Drakoo WEC Array Application for Yushan Island, China |
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| Full-Scale Artificial Ocean Wave Generation for Wave Energy Converter Performance Testing |
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| Drakoo: Energize the Future with Ocean Waves |
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| High-performance cylindrical pendulum shaped triboelectric nanogenerators driven by water wave energy for full-automatic and self-powered wireless hydrological monitoring system |
10.1016/j.nanoen.2020.104937 |
Elsevier |
74 |
| Characteristics and variability of the nearshore wave resource on the U.S. West Coast |
10.1016/j.energy.2020.117818 |
Elsevier |
203 |
| Motion simulation and performance analysis of two-body floating point absorber wave energy converter |
10.1016/j.renene.2020.05.026 |
Elsevier |
157 |
| Preliminary Site Selection-Chilean Marine Energy Resources |
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| Recommendations for Chile' Marine Energy Strategy-a roadmap for development |
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| Etymol Technology Overview |
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| A Densely Packed Array of Vertically Oriented Linear Faraday Electrical Generators Used as Point Absorbing Wave Energy Converters to Transform Ocean Surface Wave Kinetic Energy into Electrical Power |
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| A Power Take Off System for Use in Vertical Linear Electric Generator Wave Energy Converter Systems |
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| A Vertically Oriented Linear Faraday Electrical Generator Used as Point Absorbing Wave Energy Converters to Transform Ocean Surface Wave Kinetic Energy into Electrical Power |
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| First Power Production Figures from the Wave Star Roshage Wave Energy Converter |
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| Workshop on identification of future emerging technologies in the ocean energy sector |
10.2760/23207 |
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| Numerical and Experimental Investigation on a Moonpool-Buoy Wave Energy Converter |
10.3390/en13092364 |
MDPI |
13 |
| A Numerical Study on Hydrodynamic Performance of an Inclined OWC Wave Energy Converter with Nonlinear Turbine–Chamber Interaction based on 3D Potential Flow |
10.3390/jmse8030176 |
MDPI |
8 |
| Hydrodynamic Investigation of a Dual-Cylindrical OWC Wave Energy Converter Integrated into a Fixed Caisson Breakwater |
10.3390/en13040896 |
MDPI |
13 |
| Wave Energy Hyperbaric Device for Electricity Production |
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ASME |
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| Floating Hydraulic Energy Storage System for the Maritime Renewable Energy Sector |
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| Characterization of Extreme Wave Conditions for Wave Energy Converter Design and Project Risk Assessment |
10.3390/jmse8040289 |
MDPI |
8 |
| Model Test of the Aker Wave Energy Converter Concept |
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ASME |
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| A New Class of Wave Energy Converter: The Floating Pendulum Dynamic Vibration Absorber |
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| California Ocean Wave Energy Assessment |
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| Preliminary analysis of wave energy conversion at an offshore structure |
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| Wave Energy Utility Integration |
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| State estimation for wave energy converters |
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| Tidal range energy resource assessment of the Gulf of California, Mexico |
10.1016/j.renene.2020.03.086 |
Elsevier Ltd. |
155 |
| An Experimental Investigation of Turbulence and Unsteady Loading on Tidal Turbines |
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| Investigation of turbine interactions in a tidal device |
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| A High-Resolution Regional Wave Resource Characterization for the US West Coast |
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Offshore Technology Conference |
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| Wave energy assessment related to wave energy convertors in the coastal waters of China |
10.1016/j.energy.2020.117741 |
Elsevier Ltd. |
202 |
| Wave energy resource characterization and assessment for coastal waters of the United States |
10.1016/j.apenergy.2020.114922 |
Elsevier Ltd. |
267 |
| A low cost Hydrokinetic Wells turbine system for oceanic surface waves energy harvesting |
10.1016/j.renene.2020.04.059 |
Elsevier Ltd. |
156 |
| Experimental studies of the hydrodynamic characteristics of a sloped wave energy device |
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| Experimental study of the turbulence in the areas of strong currents and it impact on the tidal turbines |
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| Electricity production, capacity factor, and plant efficiency index at the Mutriku wave farm (2014–2016) |
10.1016/j.oceaneng.2017.10.018 |
Elsevier |
147 |
| Combining random forests and physics-based models to forecast the electricity generated by ocean waves: A case study of the Mutriku wave farm |
10.1016/j.oceaneng.2019.106314 |
Elsevier |
189 |
| Carnegie Wave Energy Ltd-Annual Report 2014 |
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| Tidal Power Arrays and the Coriolis Force with Array Design Considerations |
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| Model analysis of a mooring system for an ocean current turbine testing platform |
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| Enhancing wave energy developments through mooring system reliability assessment |
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| Modelling Operations and Maintenance Strategies for Wave Energy Arrays |
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| Installation Optimisation for Marine Energy Converters to Inform the Designation Process |
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| Determining anchoring systems for marine renewable energy devices moored in a western boundary current |
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