Energy resources
; Kinetic energy
; Kinetics
; Oceanography
; Renewable energy resources
; Turbines
; Wind power
; Alternative energy
; Gulf Stream
; Hatteras
; Interannual variation
; Large-scale currents
; Ocean circulation models
; Power densities
; Western boundary currents
; Ocean currents
; alternative energy
; annual variation
; current meandering
; electricity generation
; energy efficiency
; energy resource
; kinetic energy
; potential energy
; renewable resource
; turbine
; western boundary current
; Atlantic Ocean
; Cape Hatteras
; Gulf Stream
; Hatteras Island
; North Carolina
; North Carolina
; United States
; electricity
; energy conservation
; forecasting
; sea
; water flow
; wind
; Conservation of Energy Resources
; Electricity
; Forecasting
; Oceans and Seas
; Water Movements
; Wind
Department of Marine Sciences, University of North Carolina, Chapel Hill, NC, United States; Department of Marine, Earth, and Atmospheric Sciences, North Carolina State University, Raleigh, NC, United States; University of North Carolina, Coastal Studies Institute, Wanchese, NC, United States; Scripps Institution of Oceanography, University of California, San Diego, San Diego, CA, United States
Recommended Citation:
Bane J.M.,He R.,Muglia M.,et al. Marine Hydrokinetic Energy from Western Boundary Currents[J]. Annual Review of Marine Science,2017-01-01,9(1)