The Knowledge Base provides access to documents and information about the environmental effects of wind energy, supporting the WREN 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 Sort descending | Receptor |
---|---|---|---|---|---|---|
Understanding Large Wind Farm Impacts on Regional Climate and Vegetation Growth from Observational and Modeling Perspectives | Xia, G. | Thesis | Changes in Flow | Ecosystem Processes, Physical Environment | ||
Numerical Analysis of Offshore Wind Farm Wakes and their Impact on the Marine Boundary Layer | Siedersleben, S. | Thesis | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment | |
Natural variability of turbulence and stratification in a tidal shelf sea and the possible impact of offshore wind farms | Schultze, V. | Thesis | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment, Water Quality | |
Numerical study of multi-scale flow-sediment-structure interactions using a multiphase approach | Nagel, T. | Thesis | Wind Energy, Fixed Offshore Wind | Changes in Flow | Sediment Transport, Physical Environment | |
Multi-scale Interaction between Wind Turbines and Coastal Processes: coupling OpenFAST with a regional coupled air-sea modeling system | Wang, R.; Miles, T.; Brodie, J. | Presentation | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment, Sediment Transport, Human Dimensions | |
Turbulence in the wake of offshore wind farm foundations and its potential effects on mixing of stratified tidal shelf seas | Schultze, L.; Merckelbach, L.; Raasch, S.; et al. | Presentation | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment, Water Quality | |
Wave Climate and Coastline Response of the Dutch Coast: Investigating the effect of large-scale offshore wind farm developments in the North Sea | Ballas, G. | Thesis | Wind Energy, Fixed Offshore Wind | Changes in Flow | Physical Environment, Sediment Transport | |
Interactions with Offshore Wind Energy: Birds and Bats | Island Institute | Presentation | Wind Energy, Fixed Offshore Wind | Habitat Change, Collision, Changes in Flow, Avoidance, Attraction | Seabirds, Birds, Bats | |
State of the Science Workshop on Offshore Wind and Wildlife 2020: Cumulative Impacts | New York State Energy Research and Development Authority (NYSERDA) | Presentation | Wind Energy, Fixed Offshore Wind | Attraction, Avoidance, Changes in Flow, Collision, Displacement, EMF, Habitat Change, Noise | Bats, Birds, Fish, Invertebrates, Marine Mammals, Physical Environment, Reptiles | |
The role of Marine Renewable Energy structures and biofouling communities in promoting self-sustaining populations of Non-Native Species | Macleod, A. | Thesis | Marine Energy, Wind Energy | Attraction, Changes in Flow, Habitat Change | Invertebrates |
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