Parked and Operating Loads Analysis in the Aerodynamic Design of Multi-megawatt-scale Floating Vertical Axis Wind Turbines

Abstract: Abstract. A good understanding of aerodynamic loading is essential in the design of vertical axis wind turbines (VAWTs) to properly capture design loads and to estimate the power production. This paper presents a comprehensive aerodynamic design study for a 5 MW Darrieus offshore VAWT in the context of multi-megawatt floating VAWTs. This study systematically analyzes the effect of different, important design variables including the number of blades (N), aspect ratio (AR) and blade tapering in a comprehensive l… Show more

“…Parked load measurement is another crucial design factor focused on in this research. Past studies show that high-magnitude parked loads for cross-flow turbines could be a potential source of structural failure [31,32]. As a result, parked loads were measured in current experiments to capture their variation with azimuth angles for 1/3 of a full revolution.…”

Wind Tunnel Experiment to Study Aerodynamics and Control of H-Rotor Vertical Axis Wind Turbine

“…Parked load measurement is another crucial design factor focused on in this research. Past studies show that high-magnitude parked loads for cross-flow turbines could be a potential source of structural failure [31,32]. As a result, parked loads were measured in current experiments to capture their variation with azimuth angles for 1/3 of a full revolution.…”

Wind Tunnel Experiment to Study Aerodynamics and Control of H-Rotor Vertical Axis Wind Turbine