| A Numerical Modeling Framework to Evaluate Effects of Offshore Wind Farms on California’s Coastal Upwelling Ecosystem |
Raghukumar, K., Nelson, T., Chang, G. |
|
Report |
Wind Energy, Floating Offshore Wind |
Changes in Flow |
Physical Environment |
| Listening to the Beat of New Ocean Technologies for Harvesting Marine Energy |
Haxel, J., Bassett, C., Polagye, B. |
|
Journal Article |
Marine Energy |
Noise |
|
| Acoustic Characterization around the CalWave Wave Energy Converter |
Raghukumar, K., Heal, K., Chang, G. |
|
Conference Paper |
Marine Energy, Wave |
Noise |
|
| Modeling the acoustic noise from a wave energy converter farm and its impact on marine mammals at the PacWave South site, offshore Newport Oregon |
Harding, J., Preston, L., Johnson, E. |
|
Journal Article |
Marine Energy, Wave |
Noise |
Marine Mammals |
| Projected cross-shore changes in upwelling induced by offshore wind farm development along the California coast |
Raghukumar, K., Nelson, T., Jacox, M. |
|
Journal Article |
Wind Energy, Floating Offshore Wind |
Changes in Flow |
Ecosystem Processes, Physical Environment |
| Developing Parametric Source Functions for Wave Energy Converters |
Polagye, B., Bassett, C., Abadi, S. |
|
Research Study |
Marine Energy, Wave |
Noise |
Fish, Demersal Fish, Pelagic Fish, Invertebrates, Marine Mammals, Cetaceans, Pinnipeds |
| Rapidly Deployable Acoustic Monitoring and Localization System Based on a Low-Cost Wave Buoy Platform |
Raghukumar, K., Chang, G., Spada, F. |
|
Report |
Marine Energy, Wave |
Noise |
Human Dimensions |
| Acoustic Characterization around the CalWave Wave Energy Converter |
Raghukumar, K., Chang, G., Spada, F. |
|
Presentation |
Marine Energy, Wave |
Noise |
|
| Convergence of emerging technologies: development of a risk-based paradigm for marine mammal monitoring for offshore wind energy operations |
Macrander, A., Brzuzy, L., Raghukumar, K. |
|
Journal Article |
Wind Energy, Fixed Offshore Wind |
|
Marine Mammals, Human Dimensions |
| Effect of Floating Offshore Wind Turbines on Atmospheric Circulation in California |
Raghukumar, K., Chartrand, C., Chang, G. |
|
Journal Article |
Wind Energy, Floating Offshore Wind |
Changes in Flow |
Ecosystem Processes, Physical Environment |
| Clearing a Path to Commercialization of Marine Renewable Energy Technologies Through Public–Private Collaboration |
Chang, G., Harker-Klimes, G., Raghukumar, K. |
|
Journal Article |
Marine Energy |
Noise |
|
| Pilot Study of Integration of Wildlife Impact Analysis into Spatial Environmental Assessment Tool for Marine Hydrokinetic Energy |
Coates, S., Lockhart, G., Courbis, S. |
|
Conference Paper |
Marine Energy, Wave |
|
Human Dimensions, Marine Spatial Planning |
| A Vector Sensor-Based Acoustic Characterization System for Marine Renewable Energy |
Raghukumar, K., Chang, G., Spada, F. |
|
Journal Article |
Marine Energy |
Noise |
|
| Wave Energy Converter Arrays: Optimizing Power Production While Minimizing Environmental Effects |
Raghukumar, K., McWilliams, S., Chang, G. |
|
Conference Paper |
Marine Energy, Wave |
|
|
| Performance Characteristics of the NoiseSpotter: An Acoustic Monitoring and Localization System |
Raghukumar, K., Chang, G., Spada, F. |
|
Conference Paper |
Marine Energy, Wind Energy, Fixed Offshore Wind |
|
Marine Mammals |
| Spatial Environmental Assessment Tool (SEAT): A Modeling Tool to Evaluate Potential Environmental Risks Associated with Wave Energy Converter Deployments |
Jones, C., Chang, G., Raghukumar, K. |
|
Journal Article |
Wave, Marine Energy |
|
|
| Integral NoiseSpotter |
Raghukumar, K., Chang, G., Spada, F. |
|
Research Study |
Marine Energy |
Noise |
Fish, Marine Mammals, Physical Environment |
