LEADER 05776nam  22015253a 450 
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005 20250203235435.0
010   $a9783039215256
010   $a3039215256
024 8 $a10.3390/books978-3-03921-525-6
035   $a(CKB)4100000010106165
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/62721
035   $a(ScCtBLL)3456fc1e-0a98-4e71-b8d9-34356fe15606
035   $a(OCoLC)1163847291
035   $a(oapen)doab62721
035   $a(EXLCZ)994100000010106165
100   $a20250203i20192019  uu 
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aWind Turbine Aerodynamics$fWen Zhong Shen
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
210  1$aBasel, Switzerland :$cMDPI,$d2019.
215   $a1 electronic resource (410 p.)
311 08$a9783039215249 
311 08$a3039215248 
330   $aWind 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
606   $aHistory of engineering and technology$2bicssc
610   $asimplified free vortex wake
610   $aH-type VAWT
610   $avariable pitch
610   $awind tunnel experiment
610   $arotor blade optimization
610   $aNon-dominated Sorting Genetic Algorithm (NSGA-II)
610   $awake effect
610   $awind turbine noise propagation
610   $aRANS
610   $aaxial steady condition
610   $awind turbine blades
610   $aoptimization
610   $acomputational fluid dynamic
610   $astraight blade
610   $atyphoon
610   $agradient-based
610   $aimage processing
610   $aactuator line method
610   $apiezo-electric flow sensor
610   $astall
610   $aturbulence
610   $aairfoil design
610   $avortex ring
610   $adefects
610   $aDMST model
610   $awind turbine design
610   $aS809 airfoil
610   $adynamic fluid body interaction
610   $aComputational Fluid Dynamics
610   $aABL stability
610   $asemi-submersible platform
610   $arandom search
610   $afloating offshore wind turbine
610   $ablade length
610   $aadjoint approach
610   $aFatigue Loads
610   $awind turbine optimization
610   $awind turbine airfoil
610   $aparticle swarm optimization
610   $arotational augmentation
610   $aNREL Phase VI
610   $amechanical performance
610   $acoupling of aerodynamics and hydrodynamics
610   $atip speed ratio
610   $aaerodynamics
610   $aoscillating freestream
610   $asuper-statistics
610   $ablade element momentum theory
610   $awind turbine
610   $awind energy
610   $aboundary layer separation
610   $awind turbine blade optimization
610   $aactuator disc
610   $adynamic stall
610   $acomplex terrain
610   $alaminar-turbulent transition
610   $aSCADA
610   $aOpenFOAM
610   $aatmospheric stability
610   $acomputational fluid dynamics
610   $aeconomic analysis
610   $aOC5 DeepCWind
610   $awind tunnel
610   $aactuator disk
610   $ameso/microscale
610   $acost of energy
610   $apower coefficient
610   $apitch oscillation
610   $acondition monitoring
610   $aaerodynamic characteristics
610   $ablade parametrization
610   $awind turbine wakes
610   $atruss Spar floating foundation
610   $awind resource assessment
610   $awind shear
610   $awind turbine noise source
610   $adesign
610   $alow wind speed areas
610   $aaerodynamic
610   $awind farm
610   $amet mast measurements
610   $aturbulent inflow
610   $aVAWTs (Vertical axis wind turbines)
610   $athermography
610   $awind speed extrapolation
610   $aMEXICO
610   $awind turbine wake
610   $aaerodynamic force
610   $alayout optimization
610   $aH-type floating VAWT
610   $aLES
610   $aNACA0012
615  7$aHistory of engineering and technology
700   $aShen$b Wen Zhong$01289239
801  0$bScCtBLL
801  1$bScCtBLL
906   $aBOOK
912   $a9910367755203321
996   $aWind Turbine Aerodynamics$93037389
997   $aUNINA