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 Sort descending | Author | Date | Content type | Technology | Collection Method | Engineering |
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High energy recovery from salinity gradients in a concentration flow cell enhanced by bioelectrochemical currents | Lu, S.; Lan, J.; Sun, W.; et al. | Journal Article | Salinity Gradient | Lab Data | Performance | |
High Ionic Flux Sub-Micro Channels Membrane Model for Salinity Gradient Power Generation | Jiang, J.; Lu, B.; Xu, Y.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | 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 | |
High-Salinity Pressure Retarded Osmosis Using Seawater Reverse Osmosis Brine | Lee, S.; Kim, S.; Park, Y. | Book Chapter | Salinity Gradient, Pressure-Retarded Osmosis | |||
Highly effective organic draw solutions for renewable power generation by closed-loop pressure retarded osmosis | Islam, M.; Sultana, S.; Adhikary, S.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Lab Data, Full Scale | Materials, 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 | |
Hybrid nanochannel membrane based on polymer/MOF for high-performance salinity gradient power generation | Li, R. ; Jiang, J.; Liu, Q.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data, Modeling | Hybrid Devices, Performance | |
Hybrid solar photovoltaic and salinity-gradient based osmotic energy conversion system with synergistic performance enhancement | Ren, Q.; Hu, H.; Zeng, Q.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Lab Data, Modeling | Hybrid Devices, Performance, Structural | |
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 | |
Hydrostatic pressure plants for desalination via reverse osmosis | Charcosset, C.; Falconet, C.; Combe, M. | Journal Article | Salinity Gradient | |||
Impact of membrane orientation on the energy efficiency of dual stage pressure retarded osmosis | Altaee, A.; Zhou, J.; Zaragoza, G. ; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | Materials, Performance | |
Impact of natural organic matter and inorganic solutes on energy recovery from five real salinity gradients using reverse electrodialysis | Kingsbury, R.; Liu, F.; Zhu, S.; et al. | Journal Article | Salinity Gradient | Lab Data | Performance | |
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 | |
Impacts of flushing time and intrusion length on electricity production from salinity gradient energy (SGE) in the estuaries | Haddout, S.; Priya, K. | Journal Article | Salinity Gradient | Modeling | Performance | |
Impacts of membrane fouling on nanofluidic salinity gradient energy conversion process | Mao, R.; Chen, X.; Long, R.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance | |
Impacts of transmembrane pH gradient on nanofluidic salinity gradient energy conversion | Chen, X.; Luo, Z.; Long, R.; et al. | Journal Article | Salinity Gradient | Performance | ||
Implementing Salinity Gradient Energy at River Mouths | Alvarez-Silva, O. | Book Chapter | Salinity Gradient | Lab Data, Modeling | ||
Importance of nanochannels shape on blue energy generation in soft nanochannels | Dartoomi, H.; Khatibi, M.; Ashrafizadeh, S | Journal Article | Salinity Gradient | Performance, Structural | ||
Improved fluid mixing and power density in reverse electrodialysis stacks with chevron-profiled membranes | Pawlowski, S.; Rijnaarts, T.; Saakes, M.; et al. | Journal Article | Salinity Gradient | Lab Data | Structural | |
Improvement of the energy generation by pressure retarded osmosis | Nagy, E.; Dudás, J.; Hegedus, I. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | Materials, Performance, Structural | |
Industrial scale thin-film composite membrane modules for salinity-gradient energy harvesting through pressure retarded osmosis | Low, J.; Zhang, J.; Li, W.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Field Data, Lab Data | Materials, Performance | |
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 | |
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 | |
Innovation Outlook: Ocean Energy Technologies | IRENA | Report | Current, Tidal, Wave, Salinity Gradient, OTEC | |||
Integrated membrane distillation-reverse electrodialysis system for energy-efficient seawater desalination | Tufa, R.; Noviello, Y.; Di Profio, G.; et al. | Journal Article | Salinity Gradient | Performance | ||
International Workshop on Marine Energy Data Sharing: Workshop Report | Copping, A.; Weers, J.; Ruehl, K.; et al. | Workshop Article | Current, Wave, Salinity Gradient, OTEC | |||
Investigation and evaluation of salinity gradient power in Arvand River estuary using pressure retarded osmosis (PRO) method | Elkiaiy, S.; Lari, K.; Azad, M.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | |||
Investigation of the reduced specific energy consumption of the RO-PRO hybrid system based on temperature-enhanced pressure retarded osmosis | Wang, Q.; Zhou, Z.; Li, J.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | Control, Performance | |
Investigations on the effects of operational parameters in reverse electrodialysis system for salinity gradient power generation using central composite design (CCD) | Altıok, E.; Kaya, T.; Othman, N.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | 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 | |
Ion-plus salinity gradient flow Battery | Jiang, C.; Mei, Y.; Chen, B.; et al. | Journal Article | Salinity Gradient | Performance | ||
Lab scale assessment of power generation using pressure retarded osmosis from wastewater treatment plants in the state of Kuwait | Ashly, B.; Fernandes, T. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | ||
Limiting extractable energy from pressure retarded osmosis with different pretreatment costs for feed and draw solutions | Zhang, H.; Yang, W.; Rainwater, K.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | Performance | |
Long-run operation of a reverse electrodialysis system fed with wastewaters | Di Salvo, J.; Cosenza, A.; Tamburini, A.; et al. | Journal Article | Salinity Gradient | Lab Data | Performance | |
Low cost carbon electrodes to produce salinity gradient energy using reverse electrodialysis membranes: Effect of feed flow velocities and addition of Mg2+ | Najmiyah, T. ; Aziyah, L.; Hendrawan, Y. ; et al. | Conference Paper | Salinity Gradient, Reverse Electrodialysis | Lab Data | Performance | |
Macro and nano behavior of salt water in pressure retarded osmosis membrane module | Hayashi, H.; Okumura, T. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | Hydrodynamics | |
Marine Current Energy Converters to Power a Reverse Osmosis Desalination Plant | Leijon, J.; Forslund, J.; Thomas, K.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Field Data | Performance | |
Marine Renewable Energy in Canada: A Century of Consideration and Challenges | Daborn, G.; Viehman, H.; Redden, A. | Book Chapter | Current, Wave, Salinity Gradient, OTEC | |||
Marine Renewable Energy Seascape | Borthwick, A. | Journal Article | Current, Wave, Salinity Gradient, OTEC | |||
Marine Renewable Energy Sources for Desalination, Generating Freshwater and Lithium | Leijon, J.; Anttila, S.; Frost, A.; et al. | Conference Paper | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | Materials | |
Mass transport of various membrane configurations in pressure retarded osmosis (PRO) | Cheng, Z.; Chung, T. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | Performance | |
Maximize the operating profit of a SWRO-PRO integrated process for optimal water production and energy recovery | Wang, C.; Chung, T. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Modeling | 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 | |
Membrane distillation hybrids for water production and energy efficiency enhancement: A critical review | Ghaffour, N.; Soukane, S.; Lee, J.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis | Materials, Performance | ||
Membrane electrode assembly for energy harvesting from salinity gradient by reverse electrodialysis | Kang, B.; Kim, H.; Kim, D. | Journal Article | Salinity Gradient | Lab Data | Structural | |
Membrane Modules for Large-Scale Salinity Gradient Process Applications | Sarp, S.; Hilal, N. | Book Chapter | Salinity Gradient, Pressure-Retarded Osmosis | Modeling, Full Scale | Materials, Performance, Structural | |
Membrane-based indirect power generation technologies for harvesting salinity gradient energy - A review | Jiao, Y.; Song, L.; Zhou, C.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis, Reverse Electrodialysis | Hybrid Devices, Performance | ||
Membrane-based processes for sustainable power generation using water | Logan, B.; Elimelech, M. | Journal Article | Salinity Gradient | |||
Membrane-based production of salinity-gradient power | Ramon, G.; Feinberg, B.; Hoek, E. | Journal Article | Salinity Gradient | |||
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 |
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