The Knowledge Base provides access to documents and information about the environmental effects of marine renewable energy, supporting the OES-Environmental initiative. Relevant documents from around the world are compiled into a user-friendly table that displays all content available in Tethys. 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:copping). 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 | Content Type | Technology | Stressor | Receptor |
---|---|---|---|---|---|---|
Wave Hub | Wave Hub Ltd | Project Site | Marine Energy, Riverine, Wave, Wind Energy, Fixed Offshore Wind | |||
Mississippi River Projects | Free Flow Power; Free Flow Power | Project Site | Marine Energy, Riverine | |||
Lock and Dam No. 2 Hydroelectric Project | US Army Corps of Engineers; Hydro Green Energy | Project Site | Marine Energy, Riverine | |||
Annapolis Tidal Station | Nova Scotia Power Corporation; Nova Scotia Power Corporation | Project Site | Marine Energy, Riverine, Tidal | |||
Söderfors Project | Uppsala University; Uppsala University | Project Site | Marine Energy, Riverine, Tidal, Wave | |||
Tidal Thames Test Site | The Port of London Authority | Project Site | Marine Energy, Riverine | |||
Characterizing Sockeye Salmon Smolt Interactions with a Hydrokinetic Turbine in the Kvichak River, Alaska | Courtney, M.; Flanigan, A.; Hostetter, M.; et al. | Journal Article | Marine Energy, Riverine | Collision | Fish | |
Acoustic characteristics of a horizontal axis micro hydrokinetic turbine | Wang, X.; Hu, Z.; Yan, Y.; et al. | Journal Article | Marine Energy, Riverine, Tidal | Noise | ||
Towards Resolving the Risk of Turbine Collision on Fish | Garavelli, L.; Rose, D.; Staines, G.; et al. | Report | Marine Energy, Riverine, Tidal | Collision | Fish | |
Implementation of the Spatial Environmental Assessment Toolkit | McWilliams, S.; Jones, C.; Roberts, J.; et al. | Presentation | Marine Energy, Riverine, Tidal, Wave | Habitat Change, Noise | ||
Quantifying biodiversity trade-offs in the face of widespread renewable and unconventional energy development | Popescu, V.; Munshaw, R.; Shackelford, N.; et al. | Journal Article | Marine Energy, Riverine, Wind Energy, Land-Based Wind | Fish, Terrestrial Mammals | ||
Environmental Assessment for Hydropower License: Igiugig Hydrokinetic Project | Federal Energy Regulatory Commission (FERC) | Report | Marine Energy, Riverine | Human Dimensions, Environmental Impact Assessment | ||
A Review of the Application of Lifecycle Analysis to Renewable Energy Systems | Lund, C.; Biswas, W. | Journal Article | Wind Energy, Wave, Tidal, Riverine, Marine Energy | Life Cycle Assessment, Human Dimensions | ||
Are fish in danger? A review of environmental effects of marine renewable energy on fishes | Copping, A.; Hemery, L.; Viehman, H.; et al. | Journal Article | Marine Energy, Riverine, Tidal, Wave | Avoidance, Collision, Displacement, EMF, Entanglement, Habitat Change, Noise | Fish | |
Against the Tide: Potential for Marine Renewable Energy in Eastern and Southern Africa | Belletti, E.; McBride, M. | Journal Article | Marine Energy, Riverine, Tidal | Human Dimensions, Legal & Policy, Social & Economic Data | ||
Towards sustainable blue energy production: an analysis of legal transformative and adaptive capacity | Simila, J.; Soininen, N.; Paukku, E. | Journal Article | Marine Energy, Riverine, Wind Energy, Fixed Offshore Wind | Human Dimensions, Legal & Policy | ||
Environmental and ecological effects of Lake Shihwa reclamation project in South Korea: A review | Lee, C.; Lee, B. ; Chang, W.; et al. | Journal Article | Marine Energy, Riverine, Tidal | Human Dimensions | ||
Energy droughts from variable renewable energy sources in European climates | Raynaud, D.; Hingray, B.; François, B.; et al. | Journal Article | Wind Energy, Riverine, Marine Energy | Social & Economic Data, Human Dimensions | ||
Over or under? Autonomous sensor fish reveals why overshot weirs may be safer than undershot weirs for fish passage | Pflugrath, B.; Boys, C.; Cathers, B.; et al. | Journal Article | Riverine, Marine Energy | Collision | Fish | |
Interaction between hydrokinetic turbine wakes and sediment dynamics: array performance and geomorphic effects under different siting strategies and sediment transport conditions | Musa, M.; Hill, C.; Guala, M. | Journal Article | Marine Energy, Riverine | Changes in Flow | Physical Environment, Sediment Transport | |
Performance and resilience of hydrokinetic turbine arrays under large migrating fluvial bedforms | Musa, M.; Hill, C.; Sotiropoulos, F.; et al. | Journal Article | Riverine, Marine Energy | Changes in Flow | Sediment Transport, Physical Environment | |
Numerical modelling of the effect of the hydro-kinetic turbines on the transport of sediments - Application to the Rhone site. | Khaled, F.; Guillou, S.; Hadri, F.; et al. | Conference Paper | Marine Energy, Riverine | Changes in Flow | Physical Environment, Sediment Transport | |
Experimental and Numerical Investigation of Wake Interactions of Marine Hydrokinetic Turbines | Gotelli, C.; Musa, M.; Guala, M.; et al. | Journal Article | Marine Energy, Riverine | Changes in Flow | Ecosystem Processes | |
Vertical Distribution of Juvenile Salmon in a Large Turbid River | Jump, S.; Courtney, M.; Seitz, A. | Journal Article | Marine Energy, Riverine | Collision, Habitat Change | Fish | |
Measuring the hydraulic effect of hydrokinetic energy extraction in the Tanana River, Alaska | Edgerly, E.; Ravens, T. | Journal Article | Riverine, Marine Energy | Changes in Flow | Physical Environment | |
The Spatial Ecology and Biological Responses of Wild Fishes Relative to Hydropower Development on the Winnipeg River | Struthers, D. | Thesis | Marine Energy, Riverine | Fish, Demersal Fish, Pelagic Fish | ||
Evaluating riverine hydrokinetic turbine operations relative to the spatial ecology of wild fishes | Struthers, D.; Gutowsky, L.; Enders, E.; et al. | Journal Article | Marine Energy, Riverine | Fish, Demersal Fish, Pelagic Fish | ||
River, Tidal, and Ocean Current Hydrokinetic Energy Technologies: Status and Future Opportunities in Alaska | Johnson, J.; Pride, D. | Report | Riverine, Marine Energy | Sediment Transport, Physical Environment, Fish | ||
Comparison of damage to live v. euthanized Atlantic salmon Salmo salar smolts from passage through an Archimedean screw turbine | Brackley, R.; Lucas, M.; Thomas, R.; et al. | Journal Article | Riverine, Marine Energy | Collision | Pelagic Fish, Fish | |
Fish response to the presence of hydrokinetic turbines as a sustainable energy solution | Müller, S.; Muhawenimana, V.; Sonnino-Sorisio, G.; et al. | Journal Article | Marine Energy, Riverine | Attraction, Avoidance | Fish | |
Safe passage for fish: The case for in-stream turbines | Brown, E.; Sulaeman, S.; Quispe-Abad, R.; et al. | Journal Article | Marine Energy, Riverine | Changes in Flow, Collision, Noise | Fish | |
Imaging-sonar observations of salmonid interactions with a vertical axis instream turbine | Bender, A.; Langhamer, O.; Francisco, F.; et al. | Journal Article | Marine Energy, Riverine | Attraction, Avoidance | Fish | |
Ocean Energy in Islands and Remote Locations: Insights from Five Experts | Ocean Energy Systems (OES) | Report | Marine Energy, Riverine, Tidal, Wave | Human Dimensions | ||
Renewable electricity generation for off grid remote communities; Life Cycle Assessment Study in Alaska, USA | McCallum, C.; Kumar, N.; Curry, R.; et al. | Journal Article | Marine Energy, Riverine | Human Dimensions, Life Cycle Assessment | ||
Environmental Impact Assessment: Nuyakuk River Small Scale Hydroelectric Project | Squire, R.; Owen, A.; Ngo-Ly, J.; et al. | Report | Marine Energy, Riverine | Changes in Flow, Displacement, Habitat Change, Noise | Ecosystem Processes, Fish, Physical Environment, Sediment Transport, Water Quality, Human Dimensions, Environmental Impact Assessment, Recreation & Tourism, Visual Impacts | |
Development of riverine hydrokinetic energy systems in Colombia and other world regions: a review of case studies | Aristizábal-Tique, V.; Villegas-Quiceno, A.; Arbeláez-Pérez, O.; et al. | Journal Article | Marine Energy, Riverine | |||
Evaluation of hydrokinetic energy potentials of selected rivers in Kwara State, Nigeria | Adeogun, A.; Ganiyu, H.; Ladokun, L.; et al. | Journal Article | Marine Energy, Riverine | |||
Assessment of hydrokinetic energy – A case study of eastern Yamuna canal | Saini, G.; Kumar A.; Saini, R. | Conference Paper | Marine Energy, Riverine | Physical Environment | ||
Hydrokinetic energy conversion: A global riverine perspective | Ridgill, M.; Lewis, M.; Robins, P. | Journal Article | Marine Energy, Riverine | |||
Capabilities of an Acoustic Camera to Inform Fish Collision Risk with Current Energy Converter Turbines | Staines, G.; Mueller, R.; Seitz, A.; et al. | Journal Article | Marine Energy, Riverine, Tidal | Collision | Fish | |
Assessments of Available Riverine Hydrokinetic Energy: A Review | Kirby, K.; Ferguson, S.; Rennie, C.; et al. | Journal Article | Marine Energy, Riverine | Human Dimensions | ||
River Current Energy Conversion Systems: Progress, Prospects and Challenges | Khan, M.; Iqbal, M.; Quaicoe, J. | Journal Article | Riverine, Marine Energy | Human Dimensions | ||
Run of River Hydrokinetic Renewable Energy Presentation: Clean, Domestic, Scalable, Continuous, Competative Power | Free Flow Power | Presentation | Riverine, Marine Energy | |||
SNL-EFDC Model Application to Scotlandville Bend, Mississippi River | Barco, J.; Roberts, J.; Johnson, E.; et al. | Report | Riverine, Marine Energy | Changes in Flow | Sediment Transport, Physical Environment | |
US Department of Energy (DOE) National Lab Activities in Marine Hydrokinetics: Scaled Model Testing of DOE Reference Turbines | Neary, V.; Fontaine, A.; Bachant, P.; et al. | Conference Paper | Marine Energy, Riverine, Tidal | |||
Sustainable Hydropower: Using Ecosystem-based Adaptation to Increase Local Adaptation Capacity in Brazil | Garcia, K.; Mollica, A.; Ferreira de Matos, D.; et al. | Book Chapter | Riverine, Marine Energy | Human Dimensions, Climate Change | ||
Local and Non-local Geomorphic Effects of Hydrokinetic Turbines: Bridging Renewable Energy and River Morphodynamics | Musa, M. | Thesis | Marine Energy, Riverine | Changes in Flow | Physical Environment | |
Simulating Blade-Strike on Fish Passing Through Marine Hydrokinetic Turbines | Romero-Gomez, P.; Richmond, M. | Journal Article | Tidal, Riverine, Marine Energy | Collision | Pelagic Fish, Fish, Demersal Fish | |
Characterizing the Mean Flow Field in Rivers for Resource and Environmental Impact Assessments of Hydrokinetic Energy Generation Sites | Petrie, J.; Diplas, P.; Guitierrez, M.; et al. | Journal Article | Marine Energy, Riverine | Changes in Flow | ||
Slipstream Between Marine Current Turbine and Seabed | Chen, L.; Lam, W. | Journal Article | Tidal, Riverine, Marine Energy | Changes in Flow | Physical Environment |
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