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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PET-hydrogel heterogeneous membranes that eliminate concentration polarization for salinity gradient power generation | Li, J.; Li, C.; Dou, H.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Biomimetic asymmetric GO/polymer nanocomposite membrane for energy harvesting | Hao, J.; Sun, Q.; Wang, W.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data, Modeling | Materials, Performance | |
A charge-free and membrane-free hybrid capacitive mixing system for salinity gradient energy harvesting | Yang, B.; Yu, J.; Ma, T. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance, Structural | |
Nanofluidic Membranes to Address the Challenges of Salinity Gradient Energy Harvesting: Roles of Nanochannel Geometry and Bipolar Soft Layer | Dartoomi, H.; Khatibi, M.; Ashrafizadeh, S | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Control, Materials, Structural | |
Recovery of Salinity Gradient Energy with an Inorganic Sodium Superionic Conductor | Zhou, G.; Mei, Y.; Wang, Y.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Modeling and Numerical Simulation of a Buoyancy Controlled Ocean Current Turbine | Hasankhani, A.; VanZwieten, J.; Tang, Y.; et al. | Journal Article | Current, Ocean Current | Modeling | Materials, Mooring, Performance | |
Synergy analysis for ion selectivity in nanofluidic salinity gradient energy harvesting | Long, R.; Li, M.; Chen, X.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Materials, Performance | |
Free-Standing Covalent Organic Framework Membrane for High-Efficiency Salinity Gradient Energy Conversion | Hou, S.; Ji, W.; Chen, J.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Nanofluidics for osmotic energy conversion | Zhang, Z.; Wen, L.; Jiang, L. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Materials | ||
From non‐renewable energy to renewable by harvesting salinity gradient power by reverse electrodialysis: A review | Zoungrana, A.; Çakmakci, M. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Materials, Performance | ||
Experimental and numerical analysis of a multilayer composite ocean current turbine blade | Ke, S.; Wen-Quan, W.; Yan, Y. | Journal Article | Current, Ocean Current | Lab Data, Modeling | Materials | |
Salinity gradient power reverse electrodialysis: Cation exchange membrane design based on polypyrrole-chitosan composites for enhanced monovalent selectivity | Tufa, R.; Piallat, T.; Hnát, J.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Modeling the influence of divalent ions on membrane resistance and electric power in reverse electrodialysis | Gomez-Coma, L.; Ortiz-Martínez, V.; Carmona, J.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Materials, Performance | |
Sodium-ion concentration flow cell stacks for salinity gradient energy recovery: Power generation of series and parallel configurations | Whiddon, E.; Zhu, H.; Zhu, X. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Radiation-grafted cation-exchange membranes: an initial ex situ feasibility study into their potential use in reverse electrodialysis | Willson, T.; Hamerton, I.; Varcoe, J. ; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Engineered PES/SPES nanochannel membrane for salinity gradient power generation | Huang, X.; Zhang, Z.; Kong, X.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Nanocomposite and nanostructured ion-exchange membrane in salinity gradient power generation using reverse electrodialysis | Hong, J.; Gao, H.; Gan, L.; et al. | Book Chapter | Salinity Gradient, Reverse Electrodialysis | Materials, Performance | ||
A smart cyto-compatible asymmetric polypyrrole membrane for salinity power generation | Yu, C.; Zhu, X.; Wang, C.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Full Scale | Materials, Performance | |
Salinity-gradient energy driven microbial electrosynthesis of value-added chemicals from CO2 reduction | Li, X.; Angelidaki, I. ; Zhang, Y. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Reverse electrodialysis heat engine for sustainable power production | Tamburini, A.; Tedesco, M.; Cipollina, A.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Control, Materials, Performance | |
Modeling of power generation with thermolytic reverse electrodialysis for low-grade waste heat recovery | Kim, D.; Park, B.; Kwon, K.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Materials, Performance | |
Salinity-gradient energy driven microbial electrosynthesis of hydrogen peroxide | Li, X.; Angelidaki, I. ; Zhang, Y. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Adaptive Pitch Composite Blades for Axial-Flow Marine Hydrokinetic Turbines | Barber, R. | Thesis | Current, Axial Flow Turbine, Ocean Current, Tidal | Modeling, Scale Device | Materials, Performance, Structural | |
Porous carbon-coated graphite electrodes for energy production from salinity gradient using reverse electrodialysis | Lee, S.; Jeong, Y.; Chae, S.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance | |
Salinity gradient power-reverse electrodialysis and alkaline polymer electrolyte water electrolysis for hydrogen production | Tufa, R.; Rugiero, E.; Chanda, D.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Scale Device | Materials, Performance | |
Numerical study on energy harvesting from concentration gradient by reverse electrodialysis in anodic alumina nanopores | Kang, B.; Kim, H.; Lee, M.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Materials, Performance | |
Advancing Marine Renewable Energy Monitoring Capabilities | Joslin, J. | Thesis | Ocean Current, Wave | Scale Device | Materials, Structural | |
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 | |
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 | |
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 | |
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 | |
Modeling of power generation from the mixing of simulated saline and freshwater with a reverse electrodialysis system: The effect of monovalent and multivalent ions | Hong, J.; Zhang, W.; Luo, J.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | 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 | |
Numerical investigation of the power generation of a ducted composite material marine current turbine | Wang, J.; Piechna, J.; Müller, N. | Journal Article | Current, Ocean Current | Modeling | Hydrodynamics, Materials, Performance | |
Design of cathodic protection using BEM for components of the pilot ocean energy system | Gantiva, N. | Thesis | Current, Ocean Current | Materials | ||
Coating selection process for Gulf Stream hydroturbines | Bak, A. | Thesis | Current, Ocean Current | Materials | ||
Design and finite element analysis of an ocean current turbine blade | Asseff, N. | Thesis | Current, Ocean Current | Materials, Structural | ||
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 | |
Renewable energy by reverse electrodialysis | Turek, M.; Bandura, B. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Materials, Performance |
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