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This book contains state-of-the-art experimental and numerical studies showing the most recent advancements in the field of rotary wing aerodynamics and aeroelasticity, with particular application to the rotorcraft and wind energy research fields.
Technology: general issues --- History of engineering & technology --- rotary-wing aerodynamics --- rotor interaction --- eVTOL aircraft --- computational fluid dynamics --- vortex particle method --- blade design --- wind turbine model --- wind tunnel --- natural laboratory --- vortex detection criterion --- BEM method --- tip vortex interactions --- DAWT --- ducted wind turbine --- H type Darrieus --- VAWT --- dynamic stall --- leading edge vortex --- aeroelasticity --- fluid-structure interaction --- multibody dynamics --- tiltrotor --- handling qualities --- piloted simulation --- wind turbine wake --- helicopter vortex–rotor interaction --- wake vortex encounter --- helicopter offshore operation --- flight safety --- rotorcraft --- offshore wind energy --- n/a --- helicopter vortex-rotor interaction
Choose an application
This book contains state-of-the-art experimental and numerical studies showing the most recent advancements in the field of rotary wing aerodynamics and aeroelasticity, with particular application to the rotorcraft and wind energy research fields.
rotary-wing aerodynamics --- rotor interaction --- eVTOL aircraft --- computational fluid dynamics --- vortex particle method --- blade design --- wind turbine model --- wind tunnel --- natural laboratory --- vortex detection criterion --- BEM method --- tip vortex interactions --- DAWT --- ducted wind turbine --- H type Darrieus --- VAWT --- dynamic stall --- leading edge vortex --- aeroelasticity --- fluid-structure interaction --- multibody dynamics --- tiltrotor --- handling qualities --- piloted simulation --- wind turbine wake --- helicopter vortex–rotor interaction --- wake vortex encounter --- helicopter offshore operation --- flight safety --- rotorcraft --- offshore wind energy --- n/a --- helicopter vortex-rotor interaction
Choose an application
This book contains state-of-the-art experimental and numerical studies showing the most recent advancements in the field of rotary wing aerodynamics and aeroelasticity, with particular application to the rotorcraft and wind energy research fields.
Technology: general issues --- History of engineering & technology --- rotary-wing aerodynamics --- rotor interaction --- eVTOL aircraft --- computational fluid dynamics --- vortex particle method --- blade design --- wind turbine model --- wind tunnel --- natural laboratory --- vortex detection criterion --- BEM method --- tip vortex interactions --- DAWT --- ducted wind turbine --- H type Darrieus --- VAWT --- dynamic stall --- leading edge vortex --- aeroelasticity --- fluid-structure interaction --- multibody dynamics --- tiltrotor --- handling qualities --- piloted simulation --- wind turbine wake --- helicopter vortex-rotor interaction --- wake vortex encounter --- helicopter offshore operation --- flight safety --- rotorcraft --- offshore wind energy --- rotary-wing aerodynamics --- rotor interaction --- eVTOL aircraft --- computational fluid dynamics --- vortex particle method --- blade design --- wind turbine model --- wind tunnel --- natural laboratory --- vortex detection criterion --- BEM method --- tip vortex interactions --- DAWT --- ducted wind turbine --- H type Darrieus --- VAWT --- dynamic stall --- leading edge vortex --- aeroelasticity --- fluid-structure interaction --- multibody dynamics --- tiltrotor --- handling qualities --- piloted simulation --- wind turbine wake --- helicopter vortex-rotor interaction --- wake vortex encounter --- helicopter offshore operation --- flight safety --- rotorcraft --- offshore wind energy
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