The Knowledge Base provides access to information about technical and engineering aspects of marine energy. Relevant documents from around the world are compiled into a user-friendly table that displays all content available in Tethys Engineering. Results can be narrowed using the keyword filters on the right, or with search terms entered in the text box, including targeted searches (e.g., org:DOE, author:polagye). Content may also be sorted alphabetically by clicking on column headers. Some entries will appear on the next page.
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Title | Author | Date Sort ascending | Content type | Technology | Collection Method | Engineering |
---|---|---|---|---|---|---|
Air turbine optimization for a bottom-standing oscillating-water-column wave energy converter | Falcao, A.; Henriques, J.; Gato, L. | Journal Article | Wave, Oscillating Water Column | Control, Hydrodynamics, Structural | ||
Analytical and experimental investigation of hydrodynamic performance and chamber optimization of oscillating water column system | Chang, C.; Chou, F.; Chen, Y.; et al. | Journal Article | Wave, Oscillating Water Column | Modeling, Scale Device | Performance, Structural | |
Co-located wind and wave energy farms: Uniformly distributed arrays | Astariz, S.; Iglesias, G. | Journal Article | Wave | Modeling | Hybrid Devices | |
Numerical analysis for a proposed hybrid system with single HAWT, double HATCT and vertical oscillating wave energy converters on a single tower | Singh, P.; Chen, Z.; Choi, Y. | Journal Article | Current, Tidal, Wave | Hybrid Devices, Hydrodynamics, Structural | ||
Hydrodynamic optimization of the UGEN: Wave energy converter with U-shaped interior oscillating water column | Rebeiro e Silva, S.; Gomes, R.; Falcao, A. | Journal Article | Wave, Oscillating Water Column | Modeling | Performance, Structural | |
Selecting optimum locations for co-located wave and wind energy farms. Part II: A case study | Astariz, S.; Iglesias, G. | Journal Article | Wave | Modeling | Hybrid Devices | |
Selecting optimum locations for co-located wave and wind energy farms. Part I: The Co-Location Feasibility index | Astariz, S.; Iglesias, G. | Journal Article | Wave | Hybrid Devices | ||
Methodology to Calculate the Costs of a Floating Offshore Renewable Energy Farm | Castros-Santos, L.; Martins, E.; Soares, C. | Journal Article | Wave, Attenuator | Modeling | ||
Design of full scale wave simulator for testing Power Take Off systems for wave energy converters | Pedersen, H.; Hansen, R.; Hansen, A.; et al. | Journal Article | Wave | Modeling, Test Center, Full Scale | Performance, Power Take Off | |
An Experimental Study on Dynamic Performance of Large Floating Wave-Offshore Hybrid Power Generation Platform in Extreme Conditions | Kim, K.; Hong, J.; Park, S.; et al. | Journal Article | Wave | Scale Device | Performance | |
Risk-based Operation and Maintenance Approach for Wave Energy Converters Taking Weather Forecast Uncertainties into Account | Ambühl, S.; Kramer, M.; Sorenson, J. | Conference Paper | Wave | Modeling | ||
Feasibility and LCA for a Wave Dragon platform with wind turbines | Sorensen, H.; Friis-Madsen, E.; Russel, I.; et al. | Conference Paper | Wave, Overtopping | Field Data, Scale Device | Hybrid Devices | |
An analysis of the optimum renewable energy portfolio using the bottom–up model: Focusing on the electricity generation sector in South Korea | Park, S.; Yun, B.; Yun, C.; et al. | Journal Article | Current, Wave | |||
Wave energy resource assessment for a breakwater-integrated oscillating water column plant at Porto, Portugal | Henriques, J.; Cândido, J.; Pontes, M.; et al. | Journal Article | Wave, Oscillating Water Column | Field Data, Modeling | Hydrodynamics | |
Experimental investigation of floating wave energy converters for coastal protection purpose | Zanuttigh, B.; Angelelli, E. | Journal Article | Wave, Point Absorber | Lab Data, Modeling, Scale Device | Array Effects, Performance | |
WavePiston MK I test at Nissum Bredning | WavePiston | Report | Wave, Oscillating Wave Surge Converter | Field Data, Scale Device | Performance, Structural | |
Effects of Mooring Systems on the Performance of a Wave Activated Body Energy Converter | Zanuttigh, B.; Angelelli, E.; Kofoed, J. | Journal Article | Wave, Attenuator | Scale Device | Mooring | |
Finite depth effects on the wave energy resource and the energy captured by a point absorber | Fernandes, A.; Fonseca, N. | Journal Article | Wave, Point Absorber | Field Data, Modeling | Hydrodynamics, Performance | |
A novel radial self-rectifying air turbine for use in wave energy converters. Part 2. Results from model testing | Falcao, A.; Gato, L.; Nunes, E. | Journal Article | Wave, Oscillating Water Column | Modeling | Performance, Structural | |
Experimental Update of the Overtopping Model Used for the Wave Dragon Wave Energy Converter | Parmeggiani, S.; Kofoed, J.; Friis-Madsen, E. | Journal Article | Wave, Overtopping | Modeling | Performance | |
Experimental Study Related to the Mooring Design for the 1.5 MW Wave Dragon WEC Demonstrator at DanWEC | Parmeggiani, S.; Kofoed, J.; Friis-Madsen, E. | Journal Article | Wave, Overtopping | Modeling | Mooring | |
Predictability of the power output of three wave energy technologies in the Danish North Sea | Fernandez-Chozas, J.; Jensen, N.; Sorensen, H.; et al. | Journal Article | Wave, Overtopping, Point Absorber, Attenuator | Field Data | Grid Integration, Performance | |
The spatial and temporal characteristics of the wave energy resources around Taiwan | Chiu, F.; Huang, W.; Tiao, W. | Journal Article | Wave | Field Data | ||
Numerical Analysis of Impulse Turbine for Isolated Pilot OWC System | Liu, Z.; Jin, J.; Cui, Y.; et al. | Journal Article | Wave, Oscillating Water Column | Modeling | Performance |
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