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 |
---|---|---|---|---|---|---|
Marine Hydrokinetic Energy Site Identification and Ranking Methodology Part I: Wave Energy | Kilcher, L.; Thresher, R. | Report | Wave | Field Data | Performance, Structural | |
Marine Hydrokinetic Energy Site Identification and Ranking Methodology Part II: Tidal Energy | Kilcher, L.; Thresher, R.; Tinnesand, H. | Report | Current, Tidal | Field Data | Structural | |
Pelamis Mooring and Connections | Quoceant Ltd | Report | Wave | Mooring | ||
Aquamarine Power Ltd Project Overview | Wave Energy Scotland | Report | Wave | Test Center | ||
Offshore Operational Experience | Aquamarine Power Ltd | Report | Wave | Full Scale | ||
Tank Testing of WECs | Aquamarine Power Ltd | Report | Wave | Test Center | ||
AWS Ocean Energy Project Overview | Wave Energy Scotland | Report | Wave | Materials | ||
Technology Description and Status – Waveswing | AWS Ocean Energy | Report | Wave | Control, Materials | ||
Technology Description and Status – AWS III | AWS Ocean Energy | Report | Wave | Control, Materials, Mooring, Power Take Off | ||
Technology Description and Status – Electric Eel | AWS Ocean Energy | Report | Wave | Control, Materials, Mooring | ||
Technology Description and Status – Self-drilled Pile System | AWS Ocean Energy | Report | Wave | Control, Materials, Mooring | ||
AWS Report on Parametric Cost Modelling | AWS Ocean Energy | Guidance | Wave | Modeling | Materials, Mooring, Power Take Off | |
Abrasion process between a fibre mooring line and a corroded steel element during the transit and commissioning of a marine renewable energy device | Herduin, M.; Banfield, S.; Weller, S.; et al. | Journal Article | Current, Wave | Mooring | ||
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 | |
Optimisation of marine energy installation operations | Morandeau, M.; Walker, T.; Argall, R.; et al. | Journal Article | Current, Wave | |||
WavePiston MK I test at Nissum Bredning | WavePiston | Report | Wave, Oscillating Wave Surge Converter | Field Data, Scale Device | Performance, Structural | |
Installation Optimisation for Marine Energy Converters to Inform the Designation Process | Walker, R. | Thesis | Current, Wave | |||
Calculating weather windows: Application to transit, installation and the implications on deployment success | Walker, R.; Nieuwkoop-McCall, J.; Johanning, L.; et al. | Journal Article | Wave | Modeling | ||
Testing the WET-NZ Wave Energy Converter Using the Ocean Sentinel Instrumentation Buoy | Lettenmaier, T.; von Jouanne, A.; Amon, E.; et al. | Journal Article | Wave | Test Center, Scale Device | Performance | |
Development of an Economic and Efficient Installation Vessel for Tidal Stream Energy Converter Arrays | Nicholls-Lee, R.; Hindley, S.; Parkinson, R. | Conference Paper | Current, Tidal | |||
Ocean Testing of a Wave-Capturing Power Buoy | Edwards, K.; Mekhiche, M. | Presentation | Wave, Point Absorber | Full Scale | Performance | |
Guidelines for the Selection and Operation of Jack-ups in the Marine Renewable Energy Industry | RenewableUK | Report | ||||
Reference Model #1 – Tidal Energy: Resource | Polagye, B. | Report | Current, Tidal | Performance | ||
Reference Model 2: ‘Rev 0’ Rotor Design | Barone, M.; Griffith, T.; Berg, J. | Report | Current, Riverine | Modeling | Performance, Structural | |
Direct drive in wave energy conversion — AWS full scale prototype case study | Prado, M.; Polinder, H. | Conference Paper | Wave, Pressure Differential | Field Data, Full Scale | Power Take Off | |
Whitestone Poncelet RISEC Project Final Technical Report | Hasz Consulting, LLC; Whitestone Power and Communications | Report | Current, Riverine | Field Data, Modeling | Structural | |
The Learning and Development Process for the Oyster Wave Energy Converter | Skelton, J.; Bryans, G.; Doherty, K. | Conference Paper | Wave, Oscillating Wave Surge Converter | Lab Data, Modeling | Hydrodynamics, Performance | |
Extreme Ocean Wave Conditions for Northern California Wave Energy Conversion Device | Berg, J. | Report | Wave, Point Absorber | Field Data | ||
Assessment, reporting and remediation of risk associated with marine energy arrays | Bittencourt, C.; Flinn, J.; Myers, L.; et al. | Report | Current, Tidal, Wave | Array Effects |
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