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 |
---|---|---|---|---|---|---|
A vortex-induced vibration device based on MG-TENG and research of its application in ocean current energy harvesting | Li, H.; Zhang, Z.; Xu, P.; et al. | Journal Article | Current, Vortex-Induced Vibration, Ocean Current | Performance, Power Take Off | ||
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 | |
Design and analysis of a novel oscillating flow generator connected to an offshore wind turbine tower | Zhu, W.; Zhuang, S.; Sun, Z.; et al. | Journal Article | Current, Vortex-Induced Vibration | Modeling | Hybrid Devices, Hydrodynamics | |
Synthesis of Silver Nanoparticle-Immobilized Antibacterial Anion-Exchange Membranes for Salinity Gradient Energy Production by Reverse Electrodialysis | Eti, M.; Cihanoğlu, A.,; Hamaloğlu, K. ; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | ||
Study on capacitive flow electrodes used as energy conversion systems for scaled-up reverse electrodialysis devices | González, A.; Ríos, M.; Sanchez, C. | Presentation | Salinity Gradient, Reverse Electrodialysis | Lab Data | Performance | |
Conceptual design of a salinity gradient energy demonstration unit at the Magdalena River mouth | Roldan-Carvajal, M.; Álvarez-Silva, O.; Maturana, A.; et al. | Conference Paper | Salinity Gradient, Reverse Electrodialysis | Hydrodynamics | ||
Unlocking synergies: comprehensive analysis and challenges in the integration of reverse osmosis with reverse electrodialysis | Rojano, S.; Marchena, R.; Maturana, A. | Conference Paper | Salinity Gradient, Reverse Electrodialysis | Lab Data | Hybrid Devices, Performance | |
Molecular simulation of a hydrated cation exchange membrane system used in reverse electrodialysis | Pérez-Grisales, M.; Castañeda-Ramírez, S.; Moncayo-Riascos, I.; et al. | Conference Paper | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance | |
Deep utilization of salinity gradient energy between concentrated seawater and river water by multi-stage reverse electrodialysis | Guo, Z.; Cui, W.; Ji, Z.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | 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 | |
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 | |
Optimal energy harvesting efficiency from vortex-induced vibration of a circular cylinder | Han, P.; Huang, Q.; Pan, G.; et al. | Journal Article | Current, Vortex-Induced Vibration | Lab Data, Modeling | Performance, Structural | |
Assessment of Current Blue Energy Technologies and Their Potential Applications on Romanian Water Resources | Radu, V.; Ivanov, A.; Vijdea, A.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis, Reverse Electrodialysis | |||
Hydrokinetic energy harvesting from flow-induced motion of oscillators with different combined sections | Lian, J.; Ran, D.; Yan, X.; et al. | Journal Article | Current, Vortex-Induced Vibration | Lab Data, Modeling | Performance, Structural | |
Salinity gradient energy conversion by custom-made interpolymer ion exchange membranes utilized in reverse electrodialysis system | Altıok, E.; Kaya, T.; Smolinska-Kempisty, K.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Performance | |
Hybrid Nanogenerators for Ocean Energy Harvesting: Mechanisms, Designs, and Applications | Panda, S.; Hajra, S.; Oh, Y.; et al. | Journal Article | Current, Vortex-Induced Vibration | Materials, Performance, Structural | ||
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 | |
Optimization Study of Marine Energy Harvesting from Vortex-Induced Vibration Using a Response-Surface Method | Xu, P.; Jia, S.; Li, D.; et al. | Journal Article | Current, Vortex-Induced Vibration | Modeling | Hydrodynamics, Performance, Structural | |
A generalized disjunctive programming model for the optimal design of reverse electrodialysis process for salinity gradient-based power generation | Tristán, C.; Fallanza, M.; Ibanez, R.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Structural | |
Hydrokinetic energy harvesting from flow-induced vibration of a hollow cylinder attached with a bi-stable energy harvester | Huang, X.; Zhong, T. | Journal Article | Current, Vortex-Induced Vibration | Modeling | Performance | |
Effect of the geometric configuration of the pendulum system of tandem cylinders (PSTC) on the hydrokinetic energy conversion efficiency of wake-induced vibration | Jang, Y.; Kim, H.; Lee, C.; et al. | Journal Article | Current, Vortex-Induced Vibration | Lab Data | Performance, Structural | |
Clean power generation from salinity gradient using reverse electrodialysis technologies: Recent advances, bottlenecks, and future direction | Chae, S.; Kim, H.; Hong, J.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data, Modeling | 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 | |
Scaled-up multistage reverse electrodialysis pilot study with natural waters | Simões, C.; Vital, B.; Sleutels, T.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Field Data, Scale Device | Performance | |
Vortex-induced piezoelectric cantilever beam vibration for ocean wave energy harvesting via airflow from the orifice of oscillation water column chamber | Du, X.; Wang, Y.; Chen, H.; et al. | Journal Article | Current, Vortex-Induced Vibration, Wave, Oscillating Water Column | Lab Data, Modeling | Performance | |
Numerical Study on a Cylinder Vibrator in the Hydrodynamics of a Wind–Wave Combined Power Generation System under Different Mass Ratios | Sun, H.; Wang, J.; Lin, H.; et al. | Journal Article | Current, Vortex-Induced Vibration, Ocean Current | Modeling | Hybrid Devices, Performance, Structural | |
Enhanced selective ion transport by assembling nanofibers to membrane pairs with channel-like nanopores for osmotic energy harvesting | Zhang, M.; Sheng, N.; Song, Q.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Performance, Structural | ||
Impacts of soft marine fouling on the hydrokinetic energy harvesting from one-degree-of-freedom vortex-induced vibrations | Rashki, M.; Hejazi, K.; Tamimi, V.; et al. | Journal Article | Current, Vortex-Induced Vibration | Lab Data, Modeling | Performance | |
Marine renewable energy for Arctic observations | Branch, R.; Rollano, F.; Cotter, E. ; et al. | Journal Article | Current, Vortex-Induced Vibration, Tidal, Wave | |||
The effects of submergence depth on energy harvesting from the VIV of a four-cylinder oscillator with rigid connection | Yang, T.; Luo, Z.; Yu, F.; et al. | Journal Article | Current, Vortex-Induced Vibration | Modeling | Hydrodynamics, Performance | |
Optimizing pore structure of nanoporous membranes for high-performance salinity gradient power conversion | Tao, H.; Li, G.; Xu, Z.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance | |
Field Testing of Water Horse Current Energy Converter | Loeffler, B.; Kasper, J.; Duvoy, P.; et al. | Presentation | Current, Vortex-Induced Vibration | Field Data | Hydrodynamics, Performance | |
Status of the VIVACE Converter: Current and wave energy harvester using fluid structure interaction and fish-bioinspired control | Bernitsas, M.; Liapis, S.; Sadiq, S.; et al. | Presentation | Current, Vortex-Induced Vibration, Wave | Field Data, Modeling | Control, Hydrodynamics | |
Heat to Hydrogen by Reverse Electrodialysis—Using a Non-Equilibrium Thermodynamics Model to Evaluate Hydrogen Production Concepts Utilising Waste Heat | Solberg, S.; Zimmermann, P.; Wilhelmsen, Ø.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Modeling | Performance | |
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 | |
Numerical study on ocean current energy converter by tandem cylinder with different diameter using flow-induced vibration | Bai, X.; Chen, Y.; Sun, H.; et al. | Journal Article | Current, Vortex-Induced Vibration | Modeling | ||
Power Production from Produced Waters via Reverse Electrodialysis: A Preliminary Assessment | Cosenza, A.; Campisi, G.; Giacalone, F.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Performance | |
Effect of Gaskets Geometry on the Performance of a Reverse Electrodialysis Cell | Sandoval-Sánchez, E.; De la Cruz-Barragán, Z.; Miranda-Hernández, M.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Performance | |
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 | |
Comparison of Pretreatment Methods for Salinity Gradient Power Generation Using Reverse Electrodialysis (RED) Systems | Ju, J.; Choi, Y.; Lee, S.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | 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 | |
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 | ||
Numerical analysis and experiments of an underwater magnetic nonlinear energy harvester based on vortex-induced vibration | Shan, X.; Sui, G.; Tian, H.; et al. | Journal Article | Current, Vortex-Induced Vibration | Lab Data, Modeling | Performance, Structural | |
Hydrokinetic energy conversion using flow induced oscillations of single-cylinder with large passive turbulence control | Li, N.; Park, H.; Sun, H.; et al. | Journal Article | Current, Vortex-Induced Vibration | Modeling | Hydrodynamics, Performance | |
Clean energy from salinity gradients using pressure retarded osmosis and reverse electrodialysis: A review | Sharma, M.; Das, P.; Chakraborty, A.; et al. | Journal Article | Salinity Gradient, Pressure-Retarded Osmosis, Reverse Electrodialysis | Performance | ||
Analysis of biomimetic stream energy device based on flapping foils | Malefaki, I.; Anevlavi, D.; Belibassakis, K. | Conference Paper | Current, Oscillating Hydrofoil, Vortex-Induced Vibration | Lab Data, Modeling | Performance | |
Salinity gradient energy capture for power production by reverse electrodialysis experiment in thermal desalination plants | Kang, S.; Li, J.; Wang, Z.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data | Hybrid Devices, Performance | |
Salinity gradient energy harvested from thermal desalination for power production by reverse electrodialysis | Li, J.; Zhang, C.; Wang, Z.; et al. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data, Modeling | Performance | |
Enhancing Ion Transport through Nanopores in Membranes for Salinity Gradient Power Generation | Mai, V.; Huang, W.; Yang, R. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Control | ||
Two Dimensional Nanofluidic Membranes toward Harvesting Salinity Gradient Power | Xin, W.; Jiang, L.; Wen, L. | Journal Article | Salinity Gradient, Reverse Electrodialysis | Lab Data |
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