TY - BOOK ID - 146182900 TI - Rotary Wing Aerodynamics PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - History of engineering & technology KW - rotary-wing aerodynamics KW - rotor interaction KW - eVTOL aircraft KW - computational fluid dynamics KW - vortex particle method KW - blade design KW - wind turbine model KW - wind tunnel KW - natural laboratory KW - vortex detection criterion KW - BEM method KW - tip vortex interactions KW - DAWT KW - ducted wind turbine KW - H type Darrieus KW - VAWT KW - dynamic stall KW - leading edge vortex KW - aeroelasticity KW - fluid-structure interaction KW - multibody dynamics KW - tiltrotor KW - handling qualities KW - piloted simulation KW - wind turbine wake KW - helicopter vortex-rotor interaction KW - wake vortex encounter KW - helicopter offshore operation KW - flight safety KW - rotorcraft KW - offshore wind energy KW - rotary-wing aerodynamics KW - rotor interaction KW - eVTOL aircraft KW - computational fluid dynamics KW - vortex particle method KW - blade design KW - wind turbine model KW - wind tunnel KW - natural laboratory KW - vortex detection criterion KW - BEM method KW - tip vortex interactions KW - DAWT KW - ducted wind turbine KW - H type Darrieus KW - VAWT KW - dynamic stall KW - leading edge vortex KW - aeroelasticity KW - fluid-structure interaction KW - multibody dynamics KW - tiltrotor KW - handling qualities KW - piloted simulation KW - wind turbine wake KW - helicopter vortex-rotor interaction KW - wake vortex encounter KW - helicopter offshore operation KW - flight safety KW - rotorcraft KW - offshore wind energy UR - https://www.unicat.be/uniCat?func=search&query=sysid:146182900 AB - 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. ER -