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 |
---|---|---|---|---|---|---|
Experimental and numerical modelling of the Bombora wave energy converter | Algie, C.; Fleming, A.; Ryan, S. | Conference Paper | Wave, Pressure Differential | Lab Data, Modeling, Scale Device | Hydrodynamics, Materials, Performance, Structural | |
Hydroelectromechanical modelling of a piezoelectric wave energy converter | Renzi, E. | Journal Article | Wave | Modeling | Materials, Performance | |
Marine Energy Conversion Technologies: Lowering the Levelized Cost of Energy through Control Systems, Materials Research, and Systems Engineering | Kobos, P.; Neary, V.; Coe, R.; et al. | Conference Paper | Current, Wave | Control, Materials | ||
Mooring systems for marine energy converters | Flory, J.; Banfield, S.; Ridge, I.; et al. | Conference Paper | Current, Tidal, Wave | Lab Data | Materials, Mooring | |
ISWEC design tool | Sirigu, S.; Vissio, G.; Bracco, G.; et al. | Journal Article | Wave, Point Absorber | Modeling | Materials, Performance, Power Take Off, Structural | |
AWS Report on Parametric Cost Modelling | AWS Ocean Energy | Guidance | Wave | Modeling | Materials, Mooring, Power Take Off | |
Technology Description and Status – Self-drilled Pile System | AWS Ocean Energy | Report | Wave | Control, Materials, Mooring | ||
Technology Description and Status – Electric Eel | AWS Ocean Energy | Report | Wave | Control, Materials, Mooring | ||
Technology Description and Status – AWS III | AWS Ocean Energy | Report | Wave | Control, Materials, Mooring, Power Take Off | ||
Technology Description and Status – Waveswing | AWS Ocean Energy | Report | Wave | Control, Materials | ||
AWS Ocean Energy Project Overview | Wave Energy Scotland | Report | Wave | Materials | ||
Marine Applications of Advanced Fibre-Reinforced | Harper, P.; Hallett, S.; Fleming, A.; et al. | Book Chapter | Current, Wave | Materials | ||
Preparing the Uppsala University Wave Energy Converter Generator for Large-Scale Production | Hultman, E.; Ekergård, B.; Kamf, T.; et al. | Conference Paper | Wave | Lab Data | Materials, Structural | |
A review of synthetic fiber moorings for marine energy applications | Davies, P.; Johanning, L.; Weller S.; et al. | Conference Paper | Current, Wave, OTEC | Materials, Mooring | ||
Influence of material selection on the structural behavior of a wave energy converter | Malça, C.; Beirão, P.; Felismina, R. | Journal Article | Wave | Modeling | Hydrodynamics, Materials, Mooring | |
A novel mooring tether for peak load mitigation: Initial performance and service simulation testing | Thies, P.; Johanning, L.; McEvoy, P. | Journal Article | Current, Wave | Materials, Mooring, Performance, Structural | ||
Natural rubber for sustainable high-power electrical energy generation | Kaltseis, R.; Keplinger, C.; Koh, S.; et al. | Journal Article | Wave | Materials | ||
Accelerated Aging Tests for Marine Energy Applications | Davies, P. | Book Chapter | Current, Wave | Materials | ||
Prototype testing of the wave energy converter wave dragon | Kofoed, J.; Frigaard, P.; Frils-Madsen, E.; et al. | Journal Article | Wave, Overtopping | Lab Data, Scale Device | Materials, Power Take Off, Structural |
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