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 |
---|---|---|---|---|---|---|
Recovery of salinity gradient energy in desalination plants by reverse electrodialysis | Tristán, C.; Fallanza, M.; Ibanez, R.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance, Structural | |
Analysis on Renewable Energy Generation of From Salinity Gradient by Reverse Electro Dialysis | Govindarsu, R.; JaiGanesh, S.; Kumaar R, P. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | ||
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 | ||
Wave Data Assimilation in Support of Wave Energy Converter Power Prediction: Yakutat, Alaska Case Study | Dallman, A.; Khalil, M.; Raghukumar, K.; et al. | Conference Paper | Wave, Pressure Differential | Modeling | ||
Hydrodynamic slip enhanced nanofluidic reverse electrodialysis for salinity gradient energy harvesting | Long, R.; Zhao, Y.; Kuang, Z.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance | |
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 | |
Advances in the development of dielectric elastomer generators for wave energy conversion | Moretti, G.; Herran, M.; Forehand, D.; et al. | Journal Article | Wave, Pressure Differential, Oscillating Water Column | Modeling | Power Take Off | |
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 | |
Modelling and optimization of Searaser wave energy converter based hydroelectric power generation for Saint Martin's Island in Bangladesh | Shahriar, T.; Habib, M.; Hasanuzzaman, M.; et al. | Journal Article | Wave, Pressure Differential | Modeling | Performance | |
Shape Optimization of a Submerged Pressure Differential Wave Energy Converter for Load Reductions | Kelly, M.; Alam, M. | Conference Paper | Wave, Pressure Differential | Modeling | Hydrodynamics, Structural | |
Stability based approach to design cold-water pipe (CWP) for ocean thermal energy conversion (OTEC) | Adiputra, R.; Utsunomiya, T. | Journal Article | OTEC, Open-Cycle | Modeling | Materials, Structural | |
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 | |
Preliminary load assessment: UMBRA’s 250kW EMG power take-off | Cruz, J.; Atcheson, M.; Martins, T.; et al. | Conference Paper | Wave, Pressure Differential, Point Absorber, Oscillating Wave Surge Converter | Modeling | Power Take Off | |
Application of reverse electrodialysis to site-specific types of saline solutions: A techno-economic assessment | Giacalone, F.; Papapetrou, M.; Kosmadakis, G.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Performance, Structural | ||
Optimization of net power density in Reverse Electrodialysis | Ciofalo, M.; La Cerva, M.; Di Liberto, M.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Control, Performance | |
Membrane capacitive deionization-reverse electrodialysis hybrid system for improving energy efficiency of reverse osmosis seawater desalination | Choi, J.; Oh, Y.; Chae, S.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis, Reverse Electrodialysis | Lab Data | Hybrid Devices, Performance | |
A study of OTEC application on deep-sea FPSOs | Song, Y. | Journal Article | OTEC, Closed-Cycle, Open-Cycle | Performance | ||
Numerical simulation of renewable power generation using reverse electrodialysis | Chanda, S.; Tsai, P. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance, Structural | |
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 | |
Sustainable hydrogen production from offshore marine renewable farms: Techno-energetic insight on seawater electrolysis technologies | d'Amore-Domenech, R.; Leo, T. | Journal Article | Salinity Gradient, Reverse Electrodialysis | |||
Taut Mooring Rope CBOS Testing | Lehmann, M.; Kojimoto, N. | Report | Wave, Pressure Differential | Lab Data | Materials, Mooring | |
An internal-integrated RED/ED system for energy-saving seawater desalination: A model study | Chen, M.; Mei, Y.; Yu, Y.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Hybrid Devices, Performance | |
Carbonized peat moss electrodes for efficient salinity gradient energy recovery in a capacitive concentration flow cell | Zhu, H.; Xu, W.; Tan, G.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Performance, Structural | |
Multistage-batch electrodialysis to concentrate high-salinity solutions: Process optimisation, water transport, and energy consumption | Yan, H.; Wang, Y.; Wu, L.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Performance, Structural | ||
Ocean Thermal Energy Conversion (OTEC) | Masutani, S.; Takahashi, P. | Journal Article | OTEC, Closed-Cycle, Open-Cycle, Hybrid-Cycle | 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 | ||
Salinity Gradient Power Reverse Electrodialysis | Brauns, E. | Book Chapter | Salinity Gradient, Reverse Electrodialysis | Lab Data, Modeling | Control, Performance | |
Desalination by Renewable Energy-Powered Electrodialysis Processes | Fernandez-Gonzalez, C.; Dominguez-Ramos, A.; Ibanez, R.; et al. | Book Chapter | Salinity Gradient, Reverse Electrodialysis | Performance | ||
The REAPower Project: Power Production From Saline Waters and Concentrated Brines | Tamburini, A.; Cipollina, A.; Tedesco, M.; et al. | Book Chapter | Salinity Gradient, Reverse Electrodialysis | Modeling, Scale Device | Performance | |
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 | |
Modelling of fluid structure interactions in submerged flexible membranes for the Bombora wave energy converter | King, A.; Algie, C.; Ryan, S.; et al. | Conference Paper | Wave, Pressure Differential | Modeling | Hydrodynamics, Performance, Structural | |
Salinity gradient power: Optimization of nanopore size | Tseng, S.; Li, Y.; Lin, C.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance, Structural | |
Harvesting Energy from Salinity Differences Using Battery Electrodes in a Concentration Flow Cell | Kim, T.; Rahimi, M.; Logan, B.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Performance | |
Evaluating Battery‐like Reactions to Harvest Energy from Salinity Differences using Ammonium Bicarbonate Salt Solutions | Kim, T.; Rahimi, M.; Logan, B.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | 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 | |
Modelling and Analysis of Floating Ocean Wave Energy Extraction Devices | Bridges, T.; Turner, M.; Ardakani, H. | Book Chapter | Wave, Pressure Differential | Modeling | Hydrodynamics, Performance, Power Take Off | |
Wave–structure interactions for the distensible tube wave energy converter | Smith, W. | Journal Article | Wave, Pressure Differential | Modeling | Performance, Structural | |
A wave-to-wire model of ocean wave energy conversion system using MATLAB/Simulink platform | Hossain, J. ; Sikander, S. ; Hossain, E. | Conference Paper | Wave, Oscillating Wave Surge Converter, Reverse Electrodialysis | Modeling | Grid Integration | |
Dual-use open cycle ocean thermal energy conversion (OC-OTEC) using multiple condensers for adjustable power generation and seawater desalination | Kim, A.; Kim, H.; Lee, H.; et al. | Journal Article | OTEC, Open-Cycle | Modeling | Performance | |
Dual-use open cycle ocean thermal energy conversion (OC-OTEC) using multiple condensers for adjustable power generation and seawater desalination | Kim, A.; Kim, H.; Lee, H.; et al. | Journal Article | OTEC, Open-Cycle | Modeling | Performance | |
Electricity generation by the ocean thermal energy | Etemadi, A.; Emdadi, A.; AsefAfshar, O. ; et al. | Journal Article | OTEC, Closed-Cycle, Open-Cycle, Hybrid-Cycle | Modeling | ||
Direct drive in wave energy conversion — AWS full scale prototype case study | Prado, M.; Polinder, H. | Conference Paper | Wave, Pressure Differential | Field Data, Full Scale | Power Take Off | |
ISWEC: A gyroscopic mechanism for wave power exploitation | Bracco, G.; Giorcelli, E.; Mattiazzo, G. | Journal Article | Wave, Pressure Differential | Modeling | Hydrodynamics, Performance, Power Take Off |
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