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Considerations For The Design Optimization Of Floating Offshore Wind Turbine Blades, Evan M. Gaertner
Considerations For The Design Optimization Of Floating Offshore Wind Turbine Blades, Evan M. Gaertner
Doctoral Dissertations
Floating offshore wind turbines are an immature technology with relatively high costs and risk associated with deployment. Of the few floating wind turbine prototypes and demonstration projects deployed in real metocean conditions, all have used standard turbines design for onshore or offshore fixed bottom conditions. This neglects the unique unsteady aerodynamics brought on by floating support structure motion. While the floating platform has been designed and optimized for a given rotor, the global system is suboptimal due to the rotor operating in conditions outside of which it was design for. If the potential offered by floating wind turbines is to …
Rough Airfoil Simulation For Wind Turbine Applications, Nathaniel B. Develder
Rough Airfoil Simulation For Wind Turbine Applications, Nathaniel B. Develder
Doctoral Dissertations
As a result of insects or other environmental fouling, surface roughness on wind turbine blades can reduce power output significantly. Superhydrophobic surfaces, though possibly a passive, cost-saving, answer to the problem of ice accretion on wind turbine rotors in cold climates, may alter turbulence development in the blade boundary layer similar to environmental roughness. This work uses an equivalent sand grain extension to the Turbulent Potential model to computationally assess the aerodynamic effects of surface roughness on the s809 airfoil, including a representational superhydrophobic surface. Rough surface boundary layer theory, application of the equivalent sand grain method, roughness parameter correlation, …