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Wind Turbine Aerodynamics



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Autore: Shen Wen Zhong Visualizza persona
Titolo: Wind Turbine Aerodynamics Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica: 1 electronic resource (410 p.)
Soggetto non controllato: simplified free vortex wake
H-type VAWT
variable pitch
wind tunnel experiment
rotor blade optimization
Non-dominated Sorting Genetic Algorithm (NSGA-II)
wake effect
wind turbine noise propagation
RANS
axial steady condition
wind turbine blades
optimization
computational fluid dynamic
straight blade
typhoon
gradient-based
image processing
actuator line method
piezo-electric flow sensor
stall
turbulence
airfoil design
vortex ring
defects
DMST model
wind turbine design
S809 airfoil
dynamic fluid body interaction
Computational Fluid Dynamics
ABL stability
semi-submersible platform
random search
floating offshore wind turbine
blade length
adjoint approach
Fatigue Loads
wind turbine optimization
wind turbine airfoil
particle swarm optimization
rotational augmentation
NREL Phase VI
mechanical performance
coupling of aerodynamics and hydrodynamics
tip speed ratio
aerodynamics
oscillating freestream
super-statistics
blade element momentum theory
wind turbine
wind energy
boundary layer separation
wind turbine blade optimization
actuator disc
dynamic stall
complex terrain
laminar-turbulent transition
SCADA
OpenFOAM
atmospheric stability
computational fluid dynamics
economic analysis
OC5 DeepCWind
wind tunnel
actuator disk
meso/microscale
cost of energy
power coefficient
pitch oscillation
condition monitoring
aerodynamic characteristics
blade parametrization
wind turbine wakes
truss Spar floating foundation
wind resource assessment
wind shear
wind turbine noise source
design
low wind speed areas
aerodynamic
wind farm
met mast measurements
turbulent inflow
VAWTs (Vertical axis wind turbines)
thermography
wind speed extrapolation
MEXICO
wind turbine wake
aerodynamic force
layout optimization
H-type floating VAWT
LES
NACA0012
Sommario/riassunto: Wind turbine aerodynamics is one of the central subjects of wind turbine technology. To reduce the levelized cost of energy (LCOE), the size of a single wind turbine has been increased to 12 MW at present, with further increases expected in the near future. Big wind turbines and their associated wind farms have many advantages but also challenges. The typical effects are mainly related to the increase in Reynolds number and blade flexibility. This Special Issue is a collection of 21 important research works addressing the aerodynamic challenges appearing in such developments. The 21 research papers cover a wide range of problems related to wind turbine aerodynamics, which includes atmospheric turbulent flow modeling, wind turbine flow modeling, wind turbine design, wind turbine control, wind farm flow modeling in complex terrain, wind turbine noise modeling, vertical axis wind turbine, and offshore wind energy. Readers from all over the globe are expected to greatly benefit from this Special Issue collection regarding their own work and the goal of enabling the technological development of new environmentally friendly and cost-effective wind energy systems in order to reach the target of 100% energy use from renewable sources, worldwide, by 2050
Titolo autorizzato: Wind Turbine Aerodynamics  Visualizza cluster
ISBN: 3-03921-525-6
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910367755203321
Lo trovi qui: Univ. Federico II
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