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 |
---|---|---|---|---|---|---|
Advanced materials and devices for hydropower and ocean energy | Tong, C. | Book Chapter | Current, Wave | Materials | ||
Study and Analysis of Underwater Wireless Power Transfer | Orekan, T.; Zhang, P. | Book Chapter | Wave, Point Absorber | Materials, Performance | ||
Numerical Simulation of FSI Model for Energy Harvesting from Ocean Waves and Beams with Piezoelectric Material | Belkourchia, Y.; Bakhti, H.; Azrar, L. | Conference Paper | Wave, Pressure Differential | Modeling | Hydrodynamics, Materials | |
Modelling and Validation of Linear Synchronous Permanent Magnet Generator with Triangular Magnet-Array Configuration for Wave Energy Conversion | Ibrahim, T.; Memon, A.; Memon, F.; et al. | Conference Paper | Wave | Lab Data, Modeling | Materials, Performance, Substructure | |
Electroactive polymers for ocean kinetic energy harvesting: literature review and research needs | Kim, H. | Journal Article | Current, Wave | Materials | ||
Evaluation of durability of composite materials applied to renewable marine energy: Case of ducted tidal turbine | Nachtane, M.; Tarfaoui, M.; Saifaoui, D.; et al. | Journal Article | Current, Tidal | Modeling | Materials | |
Tidal turbine blade composites - A review on the effects of hygrothermal aging on the properties of CFRP | Alam, P.; Robert, C.; Bradigh, C. | Journal Article | Current, Tidal | Materials | ||
High Performance Synthetic Ropes for Wave and Tidal PTO Applications | Maassen, G.; Chou, R.; Chong, P. | Conference Paper | Current, Wave | Materials, Mooring, Power Take Off | ||
Influence of microstructural defects and hydrostatic pressure on water absorption in composite materials for tidal energy | Grogan, D.; Flanagan, M.; Walls, M.; et al. | Journal Article | Current, Tidal | Materials | ||
Advanced concrete materials for offshore floating structures | Ewart, L.; Barltrop, N.; Thies, P.; et al. | Conference Paper | Wave | Modeling | Materials, Substructure | |
Micropiles for Anchoring Ocean Renewable Energy Generation Devices | Ahsanuzzaman, M.; Gabr, M.; Borden, R. | Conference Paper | Current, Wave, OTEC | Field Data, Full Scale | Materials, Performance, Substructure | |
Review on the characterization and selection of the advanced materials for tidal turbine blades | Shiekh Elsouk, M.; Santa Cruz, A.; Guillou, S. | Conference Paper | Current, Tidal | Materials | ||
Wave Energy Converter hull design for manufacturability and reduced LCOE | Garcia-Teruel, A.; Forehand, D.; Jeffrey, H. | Conference Paper | Wave | Materials, Structural | ||
Analysis of mooring line failure in real sea conditions | Marina, D.; Torre-Enciso, Y. ; Ajuria, O.; et al. | Conference Paper | Current, Wave | Field Data, Test Center | Materials, Mooring | |
Fatigue life of pitch- and stall-regulated composite tidal turbine blades | Kennedy, C.; Jaksic, V.; Leen, S.; et al. | Journal Article | Current, Tidal | Lab Data, Modeling | Materials | |
Experimental Studies on Performances of Capsule Type Wave Energy Generation System under Action of Waves | Yu, H.; Bai, Z.; Zhao, C.; et al. | Journal Article | Wave, Pressure Differential | Modeling | Materials, Performance, Structural | |
Hashin Failure Theory Based Damage Assessment Methodology of Composite Tidal Turbine Blades and Implications for the Blade Design | Yu, G.; Ren, Y.; Zhang, T.; et al. | Journal Article | Current, Tidal | Modeling | Materials, Structural | |
Review of magnetic gear technologies and their applications in marine energy | McGilton, B.; Crozier, R.; McDonald, A.; et al. | Journal Article | Current, Tidal, Wave | Materials, Structural | ||
Towing tank testing of passively adaptive composite tidal turbine blades and comparison to design tool | Murray, R.; Ordonez-Sanchez, S.; Porter, K.; et al. | Journal Article | Current, Tidal | Lab Data | Materials | |
Silicone-Based Triboelectric Nanogenerator for Water Wave Energy Harvesting | Xiao, T.; Jiang, T.; Zhu, J.; et al. | Journal Article | Wave | Lab Data | Materials, Performance, Structural | |
Lightweight steel tidal power barrages with minimal environmental impact: application to the Severn Barrage | Rainey, R. | Journal Article | Current, Axial Flow Turbine | Field Data | Materials, Power Take Off | |
Composite Materials in Tidal Energy Blades | Dawson, M.; Davies, P.; Harper, P.; et al. | Book Chapter | Current, Tidal | Materials | ||
Influence of Composite Fatigue Properties on Marine Tidal Turbine Blade Design | Jaksic, V.; Kennedy, C.; Grogan, D.; et al. | Book Chapter | Current, Tidal | Materials, Structural | ||
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 | |
Damage mechanics based design methodology for tidal current turbine composite blades | Fagan, E.; Kennedy, C.; Leen, S.; et al. | Journal Article | Current, Tidal | Modeling | Materials | |
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 | |
Development and initial application of a blade design methodology for overspeed power-regulated tidal turbines | Gracie-Orr, K.; Nevalainen, T.; Johnstone, C.; et al. | Journal Article | Current, Tidal | Control, Hydrodynamics, Materials, Structural | ||
ISWEC design tool | Sirigu, S.; Vissio, G.; Bracco, G.; et al. | Journal Article | Wave, Point Absorber | Modeling | Materials, Performance, Power Take Off, Structural | |
Passively Adaptive Tidal Turbine Blades: Design Methodology and Experimental Testing | Murray, R. | Thesis | Current, Tidal | Modeling | Materials, Performance, Structural | |
Physical testing of performance characteristics of a novel drag-driven vertical axis tidal stream turbine; with comparisons to a conventional Savonius | Harries, T.; Kwan, A.; Brammer, J.; et al. | Journal Article | Current, Cross Flow Turbine | Lab Data, Modeling | Hydrodynamics, Materials, Performance, Structural | |
Passively adaptive tidal turbine blades: Design tool development and initial verification | Murray, R.; Nevalainen, T.; Gracie-Orr, K.; et al. | Journal Article | Current, Tidal | Lab Data, Modeling, Scale Device | Materials, Performance, Structural | |
Marine current energy extraction through buffeting | Armandei, M.; Fernandes, A. | Journal Article | Current | Modeling | Materials, Performance, Structural | |
Immersed Fatigue Performance of Glass Fibre-Reinforced Composites for Tidal Turbine Blade Applications | Kennedy, C.; Leen, S.; Brádaigh, C. | Journal Article | Current, Tidal | Lab Data | Materials | |
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 | ||
Influence of solidity on the performance, swirl characteristics, wake recovery and blade deflection of a horizontal axis tidal turbine | Morris, C. | Thesis | Current, Cross Flow Turbine | Modeling | Materials, Performance | |
Marine Applications of Advanced Fibre-Reinforced | Harper, P.; Hallett, S.; Fleming, A.; et al. | Book Chapter | Current, Wave | Materials | ||
Fatigue of Sandwich Composites in Air and Seawater | Gonabadi, H.; Oila, A.; Bull, S. | Journal Article | Current, Tidal | Materials | ||
A study on the fatigue life of glass reinforced polymer composites for tidal turbine blades | Kennedy, C.; Leen, S.; Brádaigh, C. | Conference Paper | Current, Tidal | Modeling | Materials | |
Microbial Corrosion Resistance of Stainless Steels for Marine Energy Installations | Machuca, L.; Bailey, S.; Gubner, R. | Journal Article | Current, Wave | Lab Data | Materials | |
Numerical investigation on composite material marine current turbine using CFD | Wang, J.; Müller, N. | Journal Article | Current, Axial Flow Turbine | Modeling | Hydrodynamics, Materials, Performance | |
Geotechnical issues related to renewable energy | Yun, T.; Lee, J.; Lee, S.; et al. | Journal Article | Current, Wave | Materials | ||
A novel design and preliminary investigation of composite material marine current turbine | Wang, J.; Piechna, J.; Müller, N. | Journal Article | Current | Materials, Structural |
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