Litcius/Paper detail

The Influence of Angle of Attack on the Icing Distribution Characteristics of DU97 Blade Airfoil Surface for Wind Turbines

Chuanxi Wang, Weirong Lin, Xuefeng Lin, Tong Wu, Zhe Meng, Anmin Cai, Zhi Xu, Yan Li, Fang Feng

2024Coatings13 citationsDOIOpen Access PDF

Abstract

This study explores the influence of angle of attack (AOA) on the icing distribution characteristics of asymmetric blade airfoil (DU97) surfaces for wind turbines under icing conditions by numerical simulation. The findings demonstrate a consistence between the simulated ice shapes and experimental data. The ice thickness distribution on the lower surface of the leading edge exhibits a trend of first rising and then declining along the chord direction while showing a gradually decreasing trend on the upper surface. The ice distribution range on the upper surface of the trailing edge is broader than that on the lower surface. The peak ice thickness at the trailing edge rises significantly as AOA increases from 5° to 10°, and at the leading edge raises dramatically at droplet sizes of 30–40 μm and wind speeds of 5–10 m/s. The peak ice thickness is more significantly influenced by AOA than by ambient temperature due to the combined effect of airflow characteristics induced by AOA and latent heat (phase change) and sensible heat (thermal convection and thermal radiation) caused by ambient temperature. The findings offer valuable insights into the flow and heat transfer physics, and can operate as references for wind turbine anti/de-icing technology.

Topics & Concepts

IcingAirfoilAngle of attackBlade (archaeology)Surface (topology)Wind powerAerospace engineeringMarine engineeringWind tunnelNACA airfoilGeologyMechanicsEnvironmental scienceMaterials scienceAerodynamicsStructural engineeringEngineeringPhysicsGeometryMathematicsElectrical engineeringOceanographyReynolds numberTurbulenceIcing and De-icing TechnologiesSurface Modification and SuperhydrophobicityThermal Analysis in Power Transmission