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 |
---|---|---|---|---|---|---|
A review of hybrid wave-tidal energy conversion technology | Chen, P.; Wu, D. | Journal Article | Current, Tidal, Wave | Modeling | Hybrid Devices | |
Performance assessment of a combined circular aquaculture cage floater and point absorber wave energy converters | Gharechae, A.; Abazari, A.; Soleimani, K. | Journal Article | Wave, Point Absorber | Modeling | Hybrid Devices, Performance | |
Experimental and numerical study on the integration of a built-in wave energy converter(BIWEC) and floating platform | Lai, W.; Li, J.; Rong, S.; et al. | Journal Article | Wave | Lab Data, Modeling | Hybrid Devices, Performance | |
A review on the technical development of combined wind and wave energy conversion systems | Wan, L.; Moan, T.; Gao, Z.; et al. | Journal Article | Wave | Modeling | Hybrid Devices | |
Experimental and numerical analysis of power take-off control effects on the dynamic performance of a floating wind-wave combined system | Chen, Z.; Sun, J.; Yang, J. ; et al. | Journal Article | Wave, Point Absorber, Oscillating Water Column, Oscillating Wave Surge Converter | Modeling, Scale Device | Hybrid Devices, Performance, Power Take Off | |
Coupled dynamic analysis of semi-submersible floating wind turbine integrated with oscillating water column WEC | Sebastian, B.; Karmakar, D.; Rao, M. | Journal Article | Wave, Oscillating Water Column | Modeling | Hybrid Devices, Structural | |
Wave load characteristics on a hybrid wind-wave energy system | Li, Y.; Yan, S.; Shi, H.; et al. | Journal Article | Wave, Point Absorber | Modeling | Hybrid Devices, Power Take Off, Structural | |
Accessibility for operation and maintenance tasks in co-located wind and wave energy farms with non-uniformly distributed arrays | Astariz, S.; Iglesias, G. | Journal Article | Wave | Modeling | Hybrid Devices | |
Evaluation of the WEC sub-system of a hybrid wind-wave energy converter | Pérez-Collazo, C. | Thesis | Wave | Modeling | Hybrid Devices | |
Co-located wave-wind farms: Economic assessment as a function of layout | Astariz, S.; Pérez-Collazo, C.; Abanades, J.; et al. | Journal Article | Wave | Modeling | Hybrid Devices | |
Combining wave energy with wind and solar: Short-term forecasting | Reikard, G.; Robertson, B.; Bidlot, J. | Journal Article | Wave | Modeling | Hybrid Devices | |
Improving wind farm accessibility for operation & maintenance through a co-located wave farm: Influence of layout and wave climate | Astariz, S.; Abanades, J.; Pérez-Collazo, C.; et al. | Journal Article | Wave | Modeling | Hybrid Devices | |
Towards the optimal design of a co-located wind-wave farm | Astariz, S.; Pérez-Collazo, C.; Abanades, J.; et al. | Journal Article | Wave | Modeling | Hybrid Devices, Hydrodynamics | |
Co-located wind-wave farm synergies (Operation & Maintenance): A case study | Astariz, S.; Pérez-Collazo, C.; Abanades, J.; et al. | Journal Article | Wave | Modeling | Hybrid Devices | |
Power output variations of co-located offshore wind turbines and wave energy converters in California | Stoutenurg, E.; Jenkins, N.; Jacobson, M. | Journal Article | Wave | Modeling | Hybrid Devices |
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