Open AccessVortex Induced Aerodynamic Noise Generation from Wind Turbine Blades
Author(s) -
V. Bhargava,
Satya Prasad Maddula,
Rahul Samala
Publication year - 2019
Publication title -
advances in military technology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.137
H-Index - 11
eISSN - 2533-4123
pISSN - 1802-2308
DOI - 10.3849/aimt.01295
Subject(s) - airfoil , trailing edge , chord (peer to peer) , aerodynamics , acoustics , turbine , mach number , vortex , noise (video) , leading edge , physics , wind power , vortex shedding , wind speed , reynolds number , marine engineering , aerospace engineering , mechanics , meteorology , engineering , computer science , electrical engineering , turbulence , distributed computing , artificial intelligence , image (mathematics)
An important aerodynamic noise source from lifting surface occurs from trailing edge of an aerofoil as found in wind turbine blades. In this work, semi-empirical method proposed by Brookes, Pope, Marcolini is applied to evaluate trailing edge bluntness vortex shedding noise source. For low Mach number flows (0.1884) and moderate to high chord Reynolds number, 4.73 × 10 – 3.35 × 10, change in sound power level was assessed for trailing edge thicknesses in terms of 0.1%, 0.5% and 1% chord lengths at wind speeds of 8 m/s, 10 m/s. For overall change of trailing edge thickness from 0.1% to 1% chord, an increase in noise levels up to 50 dB was found at low frequencies, while a decrease up to 30 dB was found between mid-band to high frequencies of spectra.
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