Oak Ridge National Laboratory (ORNL)



Oak Ridge National Laboratory (ORNL) is a multiprogram science and technology national laboratory managed for the United States Department of Energy (DOE) by UT-Battelle. ORNL is the largest science and energy national laboratory in the Department of Energy system by acreage. ORNL is located in Oak Ridge, Tennessee, near Knoxville. ORNL's scientific programs focus on materials, neutron science, energy, high-performance computing, systems biology and national security.

ORNL partners with the state of Tennessee, universities and industries to solve challenges in energy, advanced materials, manufacturing, security and physics.

https://www.ornl.gov/
Total Results: 24
Title Author Datesort ascending Type of Content Technology Type Stressor Receptor
Hydroacoustic Assessment of Behavioral Responses by Fish Passing Near an Operating Tidal Turbine in the East River, New York Bevelhimer, M., et al. August 2017 Journal Article Marine Energy general, Tidal Dynamic Device Fish
Effects of Hydrokinetic Turbine Sound on the Behavior of Four Species of Fish Within an Experimental Mesocosm Schramm, M., Bevelhimer, M., Scherelis, C. June 2017 Journal Article Marine Energy general, Tidal Noise Fish
Informing a Tidal Turbine Strike Probability Model through Characterization of Fish Behavioral Response using Multibeam Sonar Output Bevelhimer, M., et al. July 2016 Report Marine Energy general, Tidal Dynamic Device Fish
Characterizing Large River Sounds: Providing Context for Understanding the Environmental Effects of Noise Produced by Hydrokinetic Turbines Bevelhimer, M., Deng, D., Scherelis, C. January 2016 Journal Article Marine Energy general, Riverine Noise Socio-economics, Navigation
Effects of Electromagnetic Fields on Behavior of Largemouth Bass and Pallid Sturgeon in an Experimental Pond Setting Bevelhimer, M., Cada, G., Scherelis, C. September 2015 Report EMF Fish
In-Stream Hydrokinetic Power: Review and Appraisal VanZwieten, J., et al. September 2015 Journal Article Marine Energy general
Fish Behavioral Response during Hydrokinetic Turbine Encounters Based on Multi-Beam Hydroacoustics Results Bevelhimer, M., et al. April 2015 Conference Paper Marine Energy general Dynamic Device Fish
Evaluation of Behavior and Survival of Fish Exposed to an Axial-Flow Hydrokinetic Turbine Amaral, S., et al. February 2015 Journal Article Marine Energy general, Tidal Dynamic Device Fish
Behavioral Responses of Representative Freshwater Fish Species to Electromagnetic Fields Bevelhimer, M., et al. April 2013 Journal Article EMF Fish
Laboratory Experiments on the Effects of Blade Strike from Hydrokinetic Energy Technologies on Larval and Juvenile Freshwater Fishes Schweizer, P., Cada, G., Bevelhimer, M. March 2012 Report Marine Energy general, Riverine Dynamic Device Fish
Effects on Freshwater Organisms of Magnetic Fields Associated with Hydrokinetic Turbines Cada, G., et al. July 2011 Report Marine Energy general, Riverine EMF Benthic Invertebrates, Fish
Estimation of the Risks of Collision or Strike to Freshwater Aquatic Organisms Resulting from Operation of Instream Hydrokinetic Turbines Schweizer, P., Cada, G., Bevelhimer, M. May 2011 Report Marine Energy general, Riverine Dynamic Device Fish
Attraction To and Avoidance of Instream Hydrokinetic Turbines by Freshwater Aquatic Organisms Cada, G., Bevelhimer, M. May 2011 Report Marine Energy general, Riverine Static Device Fish
Accelerating Ocean Energy to the Marketplace: Environmental Research at the U.S. Department of Energy National Laboratories Copping, A., et al. October 2010 Conference Paper Marine Energy general Chemicals, EMF, Energy Removal, Noise Socio-economics
Potential Impacts Of Hydrokinetic And Wave Energy Conversion Technologies On Aquatic Environments Cada, G., et al. April 2007 Journal Article Marine Energy general, Riverine, Wave Nearfield Habitat
Efforts to Reduce Mortality to Hydroelectric Turbine-Passed Fish: Locating and Quantifying Damaging Shear Stresses Cada, G., et al. February 2006 Journal Article Marine Energy general, Riverine Dynamic Device Fish
Use of Pressure-Sensitive Film to Quantify Sources of Injury to Fish Cada, G., Smith, J., Busey, J. January 2005 Journal Article Marine Energy general, Riverine Dynamic Device Fish
Survival Estimates for Juvenile Fish Subjected to a Laboratory-Generated Shear Environment Neitzel, D., et al. January 2004 Journal Article Dynamic Device Fish
A Framework for Net Environmental Benefit Analysis for Remediation or Restoration of Petroleum-Contaminated Sites Efroymson, R., Nicolette, J., Suter II, G. January 2003 Report Chemicals Nearfield Habitat
Evaluation of the Effects of Turbulence on the Behaviour of Migratory Fish Odeh, M., et al. March 2002 Report Marine Energy general, Riverine Energy Removal Fish
Laboratory Studies on the Effects of Shear on Fish Nietzel, D., et al. September 2000 Report Marine Energy general, Riverine Dynamic Device Fish
Fish Behavior in Relation to Passage through Hydropower Turbines: A Review Coutant, C., Whitney, R. January 2000 Journal Article Marine Energy general, Riverine Dynamic Device Fish
Downstream Migration of Fish Through Dams of Hydroelectric Power Plants Pavlov, D., Lupandin, A., Kostin, V. January 1999 Book Marine Energy general, Riverine Dynamic Device Fish
A Review of Studies Related to the Effects of Propeller-Type Turbine Passage on Fish Early Life Stages Cada, G. January 1990 Journal Article Marine Energy general, Riverine Dynamic Device Fish
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