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Autore: | Shen Wen Zhong |
Titolo: | Wind Turbine Aerodynamics |
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 |
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 |
Opac: | Controlla la disponibilità qui |