Tidal

Capturing tidal fluctuations with turbines, reciprocating devices, kites, screws, barrages, or lagoons.

Gravity from the moon and sun cause water in the ocean to bulge in a cyclical pattern as the Earth rotates, causing water to rise and fall relative to the land in what are known as tides. Land constrictions such as straits or inlets can create high velocities at specific sites, which can be captured with the use of devices such as turbines. Since seawater is about 800 times denser than air, tidal turbines can collect energy with slower water currents and smaller turbines than wind energy. While tidal currents are very predictable, challenges arise due to the need for devices to collect flow from opposite directions and survive the harsh corrosive marine environment.

 

Environmental effects will vary between the seven most common approaches: axial flow turbine, cross flow turbine, reciprocating device, tidal kite, Archimedes screw, tidal lagoon, and tidal barrage.

 

Axial Flow Turbine

 

These turbines are the most similar to traditional windmills, where the kinetic energy of moving water is captured by spinning blades facing the direction of flow. Turbines can be open or ducted (shrouded) and placed anywhere in the water column, though bottom-mounted is the most common.

 

The main environmental concern is collision between turbine blades and marine organisms due to natural animal movements, attraction to the device, or inability to avoid the turbines within strong currents. It should be noted that these turbines spin much slower than propellers on ships. There is also concern that noise from turbines can affect animals that use sound for communication, social interaction, orientation, predation, and evasion. As with all electricity generation, there is a slight concern that electromagnetic fields generated by power cables and moving parts may affect animals that use Earth's natural magnetic field for orientation, navigation, and hunting. Likewise, chemicals such as anti-corrosion paint and small amounts of oil and grease may enter the waterbody during spills, though some turbine designs do not require lubrication. Large-scale tidal energy removal (from arrays) may disrupt natural physical systems to cause degradation in water quality or changes in sediment transport, potentially affecting the ecosystem.

Cross Flow Turbine

 

These turbines are generally cylindrical on a horizontal axis, where kinetic energy of moving water is captured by spinning blades oriented transversely to the direction of flow. Turbines can be open or ducted (shrouded) and placed anywhere in the water column, though bottom-mounted is the most common.

 

There is typically less environmental concern for collision between turbine blades and marine organisms because blades are spinning in the same direction to the flow of water, depending on the design. Concerns about noise, electromagnetic fields, chemicals, and energy removal are similar to that of axial flow turbines.

Reciprocating Device

 

Reciprocating devices do not have rotating components, but instead have a hydrofoil that is pushed back and forth transverse to the flow direction by lift or drag. Oscillating devices are the most common form of reciprocating devices.

 

Reciprocating devices often move slower than turbines, but move more freely in the water, resulting in some concern for collision. Reciprocating devices often produce little noise, though this depends on the design and generator. Concerns about electromagnetic fields, chemicals, and energy removal are similar to that of other tidal devices.

Tidal Kite

 

A tidal kite is comprised of a hydrodynamic wing, with a turbine attached, tethered by a cable to a fixed point that leverages water flow to lift the wing. As the kite 'flies' loops through the water, the speed increases around the turbine, allowing more energy extraction for slower currents. The kite is neutrally buoyant so as not to fall as the tide changes direction.

 

Collision risk may be of some concern with tidal kites. Although animals are more likely to collide with the tether than the kite itself, little is known about the ability of animals to detect the free movement of some tidal kites. Tidal kites emit noise over a larger frequency than horizontal axis turbines, though this depends on the design and generator. Concerns about electromagnetic fields, chemicals, and energy removal are similar to that of other tidal devices.

Archimedes Screw

 

Historically designed to efficiently transfer water up a tube, an Archimedes screw is a helical surface surrounding a ventral cylindrical shaft. Energy is generated as water flow moves up the spiral and rotates the device.

 

The helical turbine moves very slowly relative to other tidal technologies, and is likely to have little collision risk. Archimedes screws often produce little noise, though this depends on the design and generator. Concerns about electromagnetic fields, chemicals, and energy removal are similar to that of other tidal devices.

Tidal Lagoon

 

Tidal lagoons are comprised of retaining walls embedded with reversible low-head turbines that surround a large reservoir. Tides cause a difference in the water height inside and outside of the walls, functioning very similar to a low-head conventional hydrokinetic dam that works in both direction.

 

The ecosystem within the reservoir undergoes significant transformation, potentially yielding positive impacts with a more diverse seabed, depending on site selection. The changes to the physical system are similar to conventional marine engineering projects and can include altering water flow and shoreline processes partially due to energy removal. Decreased flushing of the reservoir may cause some problems for water quality. There are some collision concerns that arise if fish and benthic invertebrates try to traverse the retaining wall through turbines. Impacts from noise depend on turbine selection. There is little concern for electromagnetic fields because cables are embedded in the retaining wall and are not openly exposed to water. The new reservoir may also create calmer waters that allow better recreation.

Tidal Barrage

 

Tidal barrages are dams built across the entrance to a bay or estuary that captures potential tidal energy, similar to tidal lagoons. Energy is collected when the height difference on either side of the dam is greatest, at low or high tide. A minimum height fluctuation of 5 meters (16.4 feet) is required to justify the construction, so only 40 locations worldwide have been identified as feasible.

 

Installing a tidal barrage impacts bay or estuary ecosystems due to the alteration of tidal flows and can have negative effects such as changing the shoreline and important tidal flats. Inhibiting the flow of water in and out of the bay, may also lead to less flushing of the bay or estuary, altering the water quality, and potentially causing additional turbidity (suspended solids) and less saltwater, which may result in the death of fish that act as a vital food source to birds and mammals. Migrating fish may also be unable to access breeding streams, and may attempt to pass through the turbines and risk collision. Impacts from noise depend on turbine selection, similar to tidal lagoons. Decreasing shipping accessibility can become a major socio-economic issue, though locks can be added to allow slow passage. However, the barrage may improve the local economy by increasing land access when used as a bridge and allowing for more recreation opportunities due to calmer waters.

Total Results: 669
Title Author Date Type of Contentsort ascending Technology Type Stressor Receptor
Severn Tidal Power Feasibility Study: Conclusions and Summary Report Department of Energy & Climate Change (DECC) October 2010 Report Marine Energy general, Tidal
Assessing collision risk between underwater turbines and marine wildlife Scottish Natural Heritage May 2016 Report Marine Energy general, Tidal Dynamic Device
ICES SGWTE Report 2012: Report of the Study Group on Environmental Impacts of Wave and Tidal Energy International Council for the Exploration of the Sea May 2012 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Socio-economics, Environmental Impact Assessment
ICES SGWTE Report 2013: Report of the Study Group on Environmental Impacts of Wave and Tidal Energy International Council for the Exploration of the Sea March 2013 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Socio-economics, Environmental Impact Assessment
Offshore Renewable Energy Development Plan (OREDP) For Ireland: Strategic Environmental Assessment (SEA): Volume 1: Non - Technical Summary (NTS) Sustainable Energy Authority of Ireland October 2010 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Socio-economics, Environmental Impact Assessment
Environmental Monitoring and Mitigation Plan: Shetland Tidal Array, Bluemull Sound McPherson, G. July 2015 Report Marine Energy general, Tidal
Black Rock Tidal Power Grand Passage MRE Permit Black Rock Tidal Power January 2018 Report Marine Energy general, Tidal
Acoustic Tracking of Fish Movements in the Minas Passage and FORCE Demonstration Area: Pre-Turbine Baseline Studies (2011-2013) Redden, A., Stokesbury, M. January 2014 Report Marine Energy general, Tidal Fish
Sound of Islay Demonstration Tidal Array: Inter-tidal Survey of Potential Cable Routes Trendall, J. August 2009 Report Marine Energy general, Tidal Farfield Environment, Environmental Impact Assessment
Marine Renewable Energy Strategic Framework: Approach to Sustainable Development RPS Group March 2011 Report Marine Energy general, Tidal, Wave
Tidal Turbine Collision Detection: A review of the state-of-the-art sensors and imaging systems for detecting mammal collisions Jha, S. May 2016 Report Marine Energy general, Tidal Dynamic Device Marine Mammals
TidGen Power System Commercialization Project Final Technical Report ORPC Maine December 2013 Report Marine Energy general, Tidal
Monitoring getijdenturbines Oosterscheldekering Jaarrapportage 2018 Leopold, M., Scholl, M. March 2019 Report Marine Energy general, Tidal Marine Mammals, Cetaceans, Pinnipeds
Assessment of Risk to Diving Birds from Underwater Marine Renewable Devices in Welsh Waters: Phase 2 - Field Methodologies and Site Assessments Robinson, C., Cook, G. February 2011 Report Marine Energy general, Tidal, Wave Dynamic Device Birds, Seabirds, Shorebirds, Waterfowl
Environmental Scoping Report: Brims Tidal Array OpenHydro, SSE Renewables August 2013 Report Marine Energy general, Tidal
Assessment of Risk to Diving Birds from Underwater Marine Renewable Devices in Welsh Waters: Phase 1 - Desktop Review of Birds in Welsh Waters and Preliminary Risk Assessment Loughrey, J., et al. February 2011 Report Marine Energy general, Tidal, Wave Dynamic Device Birds, Seabirds, Shorebirds, Waterfowl
Assessment of Risk to Marine Mammals from Underwater Marine Renewable Devices in Welsh Waters: Phase 2 - Studies of Marine Mammals in Welsh High Tidal Waters Gordon, J., et al. March 2011 Report Marine Energy general, Tidal Marine Mammals, Cetaceans, Pinnipeds
Assessing Marine Mammal Presence in and Near the FORCE Lease Area During Winter and Early Spring - Addressing Baseline Data Gaps and Sensor Performance Redden, A., Porskamp, P. January 2015 Report Marine Energy general, Tidal Marine Mammals
Temporal Patterns in Minas Basin Intertidal Weir Fish Catches and Presence of Harbour Porpoise during April - August 2013 Baker, M., Reed, M., Redden, A. July 2014 Report Marine Energy general, Tidal Marine Mammals
Guidance for Communities on the Development of Wave and Tidal Projects Edwards, C., et al. September 2013 Report Marine Energy general, Tidal, Wave Socio-economics, Legal and Policy, Stakeholder Engagement
Minas Passage Lobster Tracking Study 2011-2013 Morrison, K., Broome, J., Redden, A. July 2014 Report Marine Energy general, Tidal Benthic Invertebrates
MeyGen Tidal Energy Project Phase 1 Project Environmental Monitoring Programme Rollings, E., Donovan, C., Eastham, C. October 2016 Report Marine Energy general, Tidal
First Interim Report of the Working Group on Marine Renewable Energy (WGMRE) International Council for the Exploration of the Sea April 2014 Report Marine Energy general, Tidal, Wave Ecosystem
Tidal Energy Community Engagement Handbook Isaacman, L., Colton, J. January 2013 Report Marine Energy general, Tidal Socio-economics
Effects Of Tidal Turbine Noise On Fish Hearing And Tissues Halvorsen, M., Carlson, T., Copping, A. September 2011 Report Marine Energy general, Tidal Noise Fish
Cobscook Bay Tidal Energy Project: 2013 Environmental Monitoring Report ORPC Maine March 2014 Report Marine Energy general, Tidal Dynamic Device, Energy Removal, Noise, Static Device Benthic Invertebrates, Birds, Fish, Marine Mammals, Nearfield Habitat
Electromagnetic Field Study Slater, M., et al. September 2010 Report Marine Energy general, Tidal, Wave EMF
Acoustic Monitoring of Beluga Whale Interactions with Cook Inlet Tidal Energy Project ORPC Alaska February 2014 Report Marine Energy general, Tidal Static Device Marine Mammals, Cetaceans
Wave and Tidal Enabling Actions Report: Consolidation of Wave and Tidal EIA / HRA Issues and Research Priorities Aquatera January 2014 Report Marine Energy general, Tidal, Wave
Current State of Knowledge on the Environmental Impacts of Tidal and Wave Energy Technology in Canada Isaacman, L., Lee, K. November 2009 Report Marine Energy general, Tidal, Wave Chemicals, Dynamic Device, EMF, Energy Removal, Noise, Static Device Farfield Environment, Nearfield Habitat
Environmental Scoping Report Westray South Tidal Array SSE Renewables October 2011 Report Marine Energy general, Tidal Noise, Static Device Birds, Fish, Marine Mammals, Reptiles, Socio-economics
West Coast Environmental Protocols Framework: Baseline and Monitoring Studies Klure, J., et al. September 2012 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Dynamic Device, EMF, Energy Removal, Noise, Static Device Benthic Invertebrates, Birds, Fish, Marine Mammals, Nearfield Habitat, Reptiles
Wave and Tidal Energy in the UK: State of the Industry Report Adams, J., Valpy, B., Krohn, D. March 2012 Report Marine Energy general, Tidal, Wave Socio-economics
Equitable Testing and Evaluation of Marine Energy Extraction Devices in terms of Performance, Cost and Environmental Impact EquiMar March 2012 Report Marine Energy general, Tidal, Wave Socio-economics, Life Cycle Assessment
Methodology for Estimating Tidal Current Energy Resources and Power Production by Tidal In-Stream Energy Conversion (TISEC) Devices Hagerman, G., Polagye, B. June 2006 Report Marine Energy general, Tidal
European Marine Energy Centre (EMEC) Decommissioning Programme Low, D. July 2012 Report Marine Energy general, Tidal Static Device Benthic Invertebrates, Nearfield Habitat
FORCE Environmental Effects Monitoring Report September 2009 to January 2011 FORCE January 2011 Report Marine Energy general, Tidal Benthic Invertebrates, Birds, Fish, Marine Mammals
Environmental Effects of Marine Energy Development around the World: Annex IV Final Report Copping, A., et al. January 2013 Report Marine Energy general, Tidal, Wave Dynamic Device, Energy Removal, Noise Ecosystem, Fish, Marine Mammals
The Practice of Comprehensive Silt Proof Measures in Tide Power Stations Liu, X., Fagong, L. September 2001 Report Marine Energy general, Tidal Energy Removal Nearfield Habitat
Community and Business Toolkit for Tidal Energy Development MacDougall, S., Colton, J. March 2013 Report Marine Energy general, Tidal Socio-economics
Assessment of the Potential of Tidal Power from Minas Passage and Minas Basin Karsten, R., et al. November 2011 Report Marine Energy general, Tidal Energy Removal Nearfield Habitat, Socio-economics
Sound of Islay Demonstration Tidal Array, Cable Route Environmental Information ScottishPower Renewables May 2013 Report Marine Energy general, Tidal Static Device Benthic Invertebrates, Nearfield Habitat
Admiralty Inlet Final Environmental Assessment Snohomish County Public Utility District No. 1 August 2013 Report Marine Energy general, Tidal Fish, Marine Mammals, Socio-economics
Survey, Deploy and Monitor Licensing Policy Guidance Marine Scotland August 2012 Report Marine Energy general, Tidal, Wave Socio-economics
Cobscook Bay Tidal Energy Project: 2012 Environmental Monitoring Report ORPC Maine March 2013 Report Marine Energy general, Tidal Dynamic Device, Energy Removal, Noise Benthic Invertebrates, Farfield Environment, Fish, Marine Mammals, Nearfield Habitat
Collision Risk of Fish with Wave and Tidal Devices ABP Marine Environmental Research July 2010 Report Marine Energy general, Tidal, Wave Dynamic Device Fish
Detection of Marine Mammals and Effects Monitoring at the NSPI (OpenHydro) Turbine Site in the Minas Passage during 2010 Tollit, D., et al. February 2011 Report Marine Energy general, Tidal Marine Mammals, Cetaceans
Detection of Tidal Turbine Noise: A Pre-Installation Case Study for Admiralty Inlet, Puget Sound Polagye, B., et al. February 2012 Report Marine Energy general, Tidal Noise Marine Mammals
Cross Coupling between Device Level CFD and Oceanographic Models Applied to Multiple TISECs in Minas Passage Klaptocz, V., et al. February 2013 Report Marine Energy general, Tidal Static Device Nearfield Habitat
Passive Acoustic Monitoring of Cetacean Activity Patterns and Movements in Minas Passage: Pre-Turbine Baseline Conditions Tollit, D., Redden, A. July 2013 Report Marine Energy general, Tidal Marine Mammals, Cetaceans
Effects of Energy Extraction on Sediment Dynamics in Intertidal Ecosystems of the Minas Basin van Proosdij, D., et al. February 2013 Report Marine Energy general, Tidal Energy Removal Farfield Environment
Impacts of Tidal Energy Extraction on Sediment Dynamics in Minas Basin, Bay of Fundy, NS Smith, P., et al. January 2013 Report Marine Energy general, Tidal Energy Removal Farfield Environment
Near Field Effects of Tidal Power Extraction on Extreme Events and Coastline Integrity in the Bay of Fundy Watanabe, R. March 2011 Report Marine Energy general, Tidal Energy Removal Nearfield Habitat
EMEC Tidal Test Facility Fall of Warness Eday, Orkney: Environmental Statement Foubister, L. June 2005 Report Marine Energy general, Tidal Benthic Invertebrates, Marine Mammals, Socio-economics, Environmental Impact Assessment
Hydrodynamic Impacts of Power Generation by Tidal Lagoons in the Bay of Fundy Cornett, A., Cousineau, J. December 2011 Report Marine Energy general, Tidal Energy Removal Nearfield Habitat
Sediment-Laden Ice Measurements and Observations, and Implications for Potential Interactions of Ice and Large Woody Debris with Tidal Turbines in Minas Passage Sanderson, B., Redden, A., Broome, J. February 2012 Report Marine Energy general, Tidal Static Device Nearfield Habitat
Assessing the Far Field Effects of Tidal Power Extraction on the Bay of Fundy, Gulf of Maine and Scotian Shelf Sheng, J., et al. June 2012 Report Marine Energy general, Tidal Energy Removal Farfield Environment
Final Report on the Acoustic, Marine Mammal and Bird Monitoring Studies During Phase 1 Pile Driving Activities ORPC Maine June 2012 Report Marine Energy general, Tidal Noise Birds, Marine Mammals, Pinnipeds
The Marine Renewable Energy Sector Early-Stage Supply Chain Canmet ENERGY January 2011 Report Marine Energy general, Tidal, Wave Socio-economics
Scoping Study on Socio-Economic Impacts of Tidal Energy Development in Nova Scotia: A Research Synthesis & Priorities for Future Action Howell, A., Drake, C. January 2012 Report Marine Energy general, Tidal Socio-economics
Literature Review on the Potential Effects of Electromagnetic Fields and Subsea Noise from Marine Renewable Energy Developments on Atlantic Salmon, Sea Trout and European Eel Gill, A., Bartlett, M. January 2010 Report Marine Energy general, Tidal, Wave EMF, Noise Fish
Marine Energy: More than Just a Drop in the Ocean? Armstrong, J., Consultancy, F. January 2008 Report Marine Energy general, Tidal, Wave Farfield Environment, Socio-economics
SNL-EFDC Model Application to Cobscook Bay, ME Roberts, J., James, S. September 2012 Report Marine Energy general, Tidal Energy Removal Nearfield Habitat
Roosevelt Island Tidal Energy (RITE) Environmental Assessment Project Adonizio, M., Smith, R. March 2011 Report Marine Energy general, Tidal Dynamic Device, Static Device Fish
Review and Analysis of Ocean Energy Systems Development and Supporting Policies AEA Energy & Environment June 2006 Report Marine Energy general, OTEC, Tidal, Wave Socio-economics
Regional Locational Guidance for Wave and Tidal Energy in the Shetland Islands Tweddle, J., et al. January 2012 Report Marine Energy general, Tidal, Wave Socio-economics
Ramsey Sound Tidal Energy Limited Scoping Report Tidal Energy November 2008 Report Marine Energy general, Tidal Benthic Invertebrates, Birds, Fish, Marine Mammals, Socio-economics
Ramsey Sound Tidal Energy Limited Non-Technical Summary of the Environmental Statement Tidal Energy October 2009 Report Marine Energy general, Tidal Benthic Invertebrates, Birds, Fish, Marine Mammals, Socio-economics
Proposed Torr Head Tidal Scheme Environmental Scoping Report THETIS Energy September 2009 Report Marine Energy general, Tidal Noise, Static Device Benthic Invertebrates, Fish, Marine Mammals, Socio-economics
Marine Megavertebrates and Fishery Resources in the Nantucket Sound - Muskeget Channel Area Leeney, R., et al. September 2010 Report Marine Energy general, Tidal Fish, Marine Mammals
Potential Impacts of, and Mitigation Strategies for, Small-Scale Tidal Generation Projects on Coastal Marine Ecosystems in the Bay of Fundy Fisheries and Oceans Canada December 2008 Report Marine Energy general, Tidal Energy Removal, Noise Benthic Invertebrates, Farfield Environment, Fish, Nearfield Habitat
Marine Renewable Energy Strategic Framework: Technical Addendum RPS Group March 2011 Report Marine Energy general, Tidal, Wave Socio-economics
Measurement and Assessment of Background Underwater Noise and its Comparison with Noise from Pin Pile Drilling Operations During Installation of the SeaGen Tidal Turbine Device, Strangford Lough Nedwell, J., Brooker, A. September 2008 Report Marine Energy general, Tidal Noise Fish, Marine Mammals
Admiralty Inlet Post-Installation Environmental Monitoring Summary Polagye, B. April 2013 Report Marine Energy general, Tidal
Pilot Installation of Tidal Current Turbine in Kvalsundet, Tromsø County, Norway - Status and Possible Consequences for the Environment Systad, G., et al. December 2005 Report Marine Energy general, Tidal Dynamic Device, Energy Removal, Noise, Static Device Benthic Invertebrates, Birds, Seabirds, Fish, Marine Mammals, Socio-economics
Scottish Marine Renewables Strategic Environmental Assessment Environmental Report Faber Maunsell, Metoc PLC March 2007 Report Marine Energy general, Tidal, Wave Chemicals, Dynamic Device, EMF, Energy Removal, Noise, Static Device Benthic Invertebrates, Birds, Seabirds, Fish, Marine Mammals, Socio-economics
Tidal Technologies: Key Issues Across Planning and Development for Environmental Regulators Bell, M., Side, J. March 2011 Report Marine Energy general, Tidal, Wave Chemicals, Dynamic Device, Energy Removal, Noise, Static Device Farfield Environment, Socio-economics
Deployment Effects of Marine Renewable Energy Technologies - Framework for Identifying Key Environmental Concerns in Marine Renewable Energy Projects Kramer, S., et al. June 2010 Report Marine Energy general, Tidal, Wave Socio-economics
The Effect of Tidal Power Generation on Sediment Transport in Muskeget Channel University of Massachusetts January 2012 Report Marine Energy general, Tidal Energy Removal Farfield Environment
The Benthic Environment of the North and West of Scotland and the Northern and Western Isles: Sources of Information and Overview Wilding, T., Hughes, D., Black, K. October 2005 Report Marine Energy general, Tidal, Wave Energy Removal Benthic Invertebrates, Nearfield Habitat
The Annapolis Tidal Power Project Head Pond Water Levels - Impacts and Mitigations Rice, R. September 1984 Report Marine Energy general, Tidal Energy Removal
Summary Report on Environmental Monitoring Related to the Pearson College - ENCANA - Clean Current Tidal Power Demonstration Project at Race Rocks Ecological Reserve Thuringer, P., Reidy, R. December 2006 Report Marine Energy general, Tidal EMF, Noise Benthic Invertebrates, Birds, Seabirds, Fish, Marine Mammals, Nearfield Habitat
Subtidal Benthic Video and Benthic Infauna Survey and Intertidal Cable Crossing Survey MER Assessment Corporation January 2012 Report Marine Energy general, Tidal Static Device Benthic Invertebrates, Nearfield Habitat
Guernsey Regional Environmental Assessment of Marine Energy Guernsey Renewable Energy Team July 2011 Report Marine Energy general, Tidal, Wave Dynamic Device, Energy Removal, Noise, Static Device Benthic Invertebrates, Birds, Seabirds, Fish, Marine Mammals, Nearfield Habitat, Socio-economics, Environmental Impact Assessment
Study of the Acoustic Effects of Hydrokinetic Tidal Turbine in Admiralty Inlet, Puget Sound Collar, C., et al. March 2012 Report Marine Energy general, Tidal Noise Benthic Invertebrates, Fish, Marine Mammals
Guidance for Developers at EMEC Grid-Connected Sites: Supporting Environmental Documentation European Marine Energy Centre August 2011 Report Marine Energy general, Tidal, Wave Socio-economics
Strategic Tidal Stream Assessment for Alderney Craig, J. January 2008 Report Marine Energy general, Tidal, Wave Energy Removal, Static Device Benthic Invertebrates, Birds, Seabirds, Fish, Marine Mammals, Socio-economics, Environmental Impact Assessment
Stingray Tidal Steam Energy Device - Phase 3 The Engineering Business January 2005 Report Marine Energy general, Tidal
Sound of Islay Environmental Statement ScottishPower Renewables July 2010 Report Marine Energy general, Tidal Noise, Static Device Benthic Invertebrates, Ecosystem, Fish, Marine Mammals, Socio-economics, Environmental Impact Assessment
Skerries Tidal Stream Array: Environmental Impact Assessment Scoping Report Project Management Support Services July 2006 Report Marine Energy general, Tidal Socio-economics, Environmental Impact Assessment
SeaGen Environmental Monitoring Programme: Final Report Keenan, G., et al. January 2011 Report Marine Energy general, Tidal Dynamic Device, Energy Removal, Noise Benthic Invertebrates, Birds, Farfield Environment, Marine Mammals, Nearfield Habitat, Socio-economics, Environmental Impact Assessment
Initial Consultation Document for the Roosevelt Island Tidal Energy Project Verdant Power October 2003 Report Marine Energy general, Tidal
Screening for Biofouling and Corrosion of Tidal Energy Device Materials: In-Situ Results for Admiralty Inlet, Puget Sound, Washington Polagye, B., Thomson, J. April 2010 Report Marine Energy general, Tidal Chemicals Nearfield Habitat
Ireland Offshore Renewable Energy Strategic Action Plan 2012 - 2020 UK Department of Enterprise, Trade and Investment March 2012 Report Marine Energy general, Tidal, Wave, Wind Energy general, Offshore Wind Socio-economics
MeyGen Tidal Energy Project Phase 1: Environmental Statement MeyGen January 2012 Report Marine Energy general, Tidal Noise Benthic Invertebrates, Birds, Fish, Marine Mammals, Socio-economics, Environmental Impact Assessment
A 1:8.7 Scale Water Tunnel Verification & Validation of an Axial Flow Water Turbine Fontaine, A., et al. August 2013 Report Marine Energy general, Riverine, Tidal
EMEC Fall of Warness Tidal Test Site: Wildlife Observations Project Annual Report Marine Scotland May 2014 Report Marine Energy general, Tidal Birds, Marine Mammals, Pinnipeds
Environment Description for the EMEC Tidal Test Site Fall of Warness, Orkney Finn, M. December 2006 Report Marine Energy general, Tidal Nearfield Habitat
The Use of Acoustic Devices to Warn Marine Mammals of Tidal-Stream Energy Devices Wilson, B., Carter, C. September 2013 Report Marine Energy general, Tidal Noise Marine Mammals
Evaluation of Survival and Behavior of Fish Exposed to an Axial-Flow Hydrokinetic Turbine Amaral, S., Giza, D., McMahon, B. January 2014 Report Marine Energy general, Ocean Current, Riverine, Tidal Dynamic Device Fish

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