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 |
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Effect of inorganic filler size on electrochemical performance of nanocomposite cation exchange membranes for salinity gradient power generation | Hong, J.; Glabman, S.; Chen, Y. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Modeling pressure-retarded osmotic power in commercial length membranes | Naguib, M.; Maisonneuve, J.; Laflamme, C.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling, Full Scale | Materials, Performance | |
Scale-up characteristics of membrane-based salinity-gradient power production | Feinberg, B.; Ramon, G.; Hoek, E. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Lab Data, Modeling | Performance | |
Energy generation and abatement of Acid Orange 7 in reverse electrodialysis cells using salinity gradients | Scialdone, O.; D’Angelo, A.; Galia, A. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Nature and magnitude of wave loadings at Seawave Slot-cone Generators | Buccino, M.; Vicinanza, D.; Salerno, D.; et al. | Journal Article | Wave, Overtopping | Lab Data, Modeling, Scale Device | Hydrodynamics | |
Evaluation of electrochemical properties and reverse electrodialysis performance for porous cation exchange membranes with sulfate-functionalized iron oxide | Hong, J.; Chen, Y. | Journal Article | Salinity Gradient | Lab Data | Materials | |
Surface protrusion based mechanisms of augmenting energy extraction from vibrating cylinders at Reynolds number 3 × 10^3–3 × 10^4 | Vinod, A.; Banerjee, A. | Journal Article | Current, Vortex-Induced Vibration | Lab Data | Hydrodynamics, Materials, Performance | |
Cathodic reduction of hexavalent chromium coupled with electricity generation achieved by reverse-electrodialysis processes using salinity gradients | Scialdone, O.; D’Angelo, A.; De Lumè, E.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Energy Recovery from Solutions with Different Salinities Based on Swelling and Shrinking of Hydrogels | Zhu, X.; Yang, W.; Hatzell, M.; et al. | Journal Article | Salinity Gradient | Lab Data | Performance | |
Nanocomposite reverse electrodialysis (RED) ion-exchange membranes for salinity gradient power generation | Hong, J.; Chen, Y. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Nanocomposite reverse electrodialysis (RED) ion-exchange membranes for salinity gradient power generation | Hong, J.; Chen, Y. | Journal Article | Salinity Gradient | Lab Data | Structural | |
Micro-structured membranes for electricity generation by reverse electrodialysis | Guler, E.; Elizen, R.; Saakes, M.; et al. | Journal Article | Salinity Gradient | Lab Data | Materials, Structural | |
Experimentally obtainable energy from mixing river water, seawater or brines with reverse electrodialysis | Daniilidis, A.; Vermaas, D.; Herber, R.; et al. | Journal Article | Salinity Gradient | Lab Data | Performance | |
Enhanced mixing in the diffusive boundary layer for energy generation in reverse electrodialysis | Vermaas, D.; Saakes, M.; Nijmeijer, K. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data, Scale Device | Hydrodynamics, Performance, Structural | |
Early detection of preferential channeling in reverse electrodialysis | Vermaas, D.; Saakes, M.; Nijmeijer, K. | Journal Article | Salinity Gradient | Lab Data | ||
Numerical study of the effect of the relative depth on the overtopping wave energy converters according to constructal design | dos Santos, E.; Machado, N. ; Zanella, M.; et al. | Journal Article | Wave, Overtopping | Lab Data | ||
Capacitive mixing power production from salinity gradient energy enhanced through exoelectrogen-generated ionic currents | Hatzell, M.; Cusick, R.; Logan, B. | Journal Article | Salinity Gradient | Lab Data | Performance | |
Robust and High performance hollow fiber membranes for energy harvesting from salinity gradients by pressure retarded osmosis | Chou, S.; Wang, R.; Fane, A. | Journal Article | Salinity Gradient | Lab Data, Modeling | Materials, Performance, Structural | |
Synergy of Multiple Cylinders in Flow Induced Motion for Hydrokinetic Energy Harnessing | Kim, E-S. | Thesis | Current, Vortex-Induced Vibration, Ocean Current | Lab Data, Modeling | Hydrodynamics, Performance, Structural | |
Influence of Natural Organic Matter Fouling and Osmotic Backwash on Pressure Retarded Osmosis Energy Production from Natural Salinity Gradients | Yip, N.; Elimelech, M. | Journal Article | Salinity Gradient | Lab Data | Performance | |
On-grid and off-grid batch-ED (electrodialysis) process: Simulation and experimental tests | Uche, J.; Círez, F.; Bayod, A.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling, Full Scale | Performance | |
High performance thin film composite pressure retarded osmosis (PRO) membranes for renewable salinity-gradient energy generation | Han, G.; Zhang, S.; Chung, T. | Journal Article | Salinity Gradient | Lab Data | Performance | |
Highly Robust Thin-Film Composite Pressure Retarded Osmosis (PRO) Hollow Fiber Membranes with High Power Densities for Renewable Salinity-Gradient Energy Generation | Han, G.; Wang, P.; Chung, T. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Lab Data, Modeling | Materials, Performance | |
Energy harvesting from salinity gradient by reverse electrodialysis with anodic alumina nanopores | Kim, J.; Kim, S.; Kim, D. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Wave loadings acting on Overtopping Breakwater for Energy Conversion | Vicinanza, D.; Norgaard, J.; Contestabile, P.; et al. | Conference Paper | Wave, Overtopping | Lab Data | Structural | |
The new wave energy converter WaveCat: Concept and laboratory tests | Fernandez, H.; Iglesias, G.; Carballo, R.; et al. | Journal Article | Wave, Overtopping | Lab Data, Scale Device | ||
Potential of osmotic power generation by pressure retarded osmosis using seawater as feed solution: Analysis and experiments | Kim, Y.; Elimelech, M. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Lab Data, Modeling | ||
Impact of Wire Geometry in Energy Extraction from Salinity Differences Using Capacitive Technology | Sales, B.; Burheim, O.; Liu, F.; et al. | Journal Article | Salinity Gradient | Lab Data | Materials | |
Development of a renewable energy system utilizing vortex induced vibration of a cylinder and principle of leverage aiming for application in deep sea | Nishi, Y.; Ono, K.; Kokubun, K. | Journal Article | Current, Vortex-Induced Vibration | Lab Data, Modeling | Performance, Structural | |
Modelling the Reverse ElectroDialysis process with seawater and concentrated brines | Tedesco, M.; Cipollina, A.; Tamburini, A.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data, Modeling | ||
Osmotic power production from salinity gradient resource by pressure retarded osmosis: Effects of operating conditions and reverse solute diffusion | She, Q.; Jin, X.; Tang, C. | Journal Article | Salinity Gradient | Lab Data, Modeling | Performance | |
The SSG Wave Energy Converter: Performance, Status and Recent Developments | Vicinanza, D.; Margheritini, L.; Kofoed, J.; et al. | Journal Article | Wave, Overtopping | Lab Data, Modeling, Scale Device | Performance, Power Take Off, Structural | |
Optimization of the WaveCat wave energy converter | Fernandez, H.; Iglesias, G.; Carballo, R.; et al. | Journal Article | Wave, Overtopping | Lab Data, Scale Device | ||
Power generation using profiled membranes in reverse electrodialysis | Vermaas, D.; Saakes, M.; Nijmeijer, K. | Journal Article | Salinity Gradient | Lab Data | Materials, Structural | |
On the Effects of Geometry Control on the Performance of Overtopping Wave Energy Converters | Victor, L.; Troch, P.; Kofoed, J. | Journal Article | Wave, Overtopping | Lab Data, Modeling | Control, Performance, Structural | |
Microbial Reverse Electrodialysis Cells for Synergistically Enhanced Power Production | Kim, Y.; Logan, B. | Journal Article | Salinity Gradient | Lab Data | Performance | |
Ion conductive spacers for increased power generation in reverse electrodialysis | Dlugolecki, P.; Dabrowska, J.; Nijmeijer, K.; et al. | Journal Article | Salinity Gradient | Lab Data, Modeling | Structural | |
Reverse electrodialysis: Comparison of six commercial membrane pairs on the thermodynamic efficiency and power density | Veerman, J.; de Jong, R.; Saakes, M.; et al. | Journal Article | Salinity Gradient | Lab Data | Structural | |
Extracting Renewable Energy from a Salinity Difference Using a Capacitor | Brogioli, D. | Journal Article | Salinity Gradient | Lab Data | ||
Power generation with pressure retarded osmosis: An experimental and theoretical investigation | Achilli, A.; Cath, T. ; Childress, A. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Lab Data, Modeling | ||
SSG wave energy converter: Design, reliability and hydraulic performance of an innovative overtopping device | Margheritini, L.; Vicinanza, D.; Frigaard, P. | Journal Article | Wave, Overtopping | Lab Data | ||
Influence of multivalent ions on power production from mixing salt and fresh water with a reverse electrodialysis system | Post, J.; Hamelers, H.; Buisman, C. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
The potential for power production from salinity gradients by pressure retarded osmosis | Thorsen, T.; Holt, T. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Lab Data, Modeling | ||
Current status of ion exchange membranes for power generation from salinity gradients | Długołęcki, P.; Nymeijer, K.; Metz, S.; et al. | Journal Article | Salinity Gradient | Lab Data, Modeling | Materials, Performance | |
Wave pressure acting on a seawave slot-cone generator | Vicinanza, D.; Frigaard, P. | Journal Article | Wave, Overtopping | Lab Data, Modeling | Structural | |
The Power Takeoff System of the Multi-MW Wave Dragon Wave Energy Converter | Jasinski, M.; Knapp, W.; Faust, M.; et al. | Conference Paper | Wave, Overtopping | Lab Data, Modeling | Control, Power Take Off | |
Optimal Power Takeoff System Layout for the Seawave Slot-Cone Generator Kvitsøy Pilot Plant | Knapp, W.; Mayr, B.; Faust, M.; et al. | Conference Paper | Wave, Overtopping | Lab Data, Modeling | Control, Power Take Off | |
Hydraulic characteristics of seawave slot-cone generator pilot plant at Kvitsøy (Norway) | Margheritini, L.; Vicinanza, D.; Kofoed, J. | Conference Paper | Wave, Overtopping | Lab Data, Modeling | ||
Renewable energy by reverse electrodialysis | Turek, M.; Bandura, B. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
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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