Study of ice accretion and icing effects on aerodynamic characteristics of DU96 wind turbine blade profile
Permanent link
https://hdl.handle.net/10037/17816Date
2019-01-26Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
In order to optimize the large wind turbines operation in ice prone cold regions, it is important to better understand the ice accretion physics and its effects on aerodynamic performance and power production losses. This paper describes a case study of ice accretion on DU96-W-180 airfoil, which has been used for large wind turbine blades such as NREL 5 MW. Analysis has been carried out for glaze and rime ice conditions using icing tunnel experimental data and multiphase Computational Fluid Dynamics (CFD) based numerical approach. Results show a difference in profile surface roughness and heat fluxes during rime and glaze ice accretion process, which leads to a significant change in rate and shape of ice accretion. More complex ice shapes are observed in case of glaze ice conditions that affects the aerodynamic performance differently from rime ice conditions. Numerical results are compared with the experimental data, where a good agreement is found. Results show higher aerodynamic performance degradation for glaze ice conditions particularly at higher angles of attack.
Is part of
Jin, J.Y. (2021). Study of Atmospheric Ice Accretion on Wind Turbine Blades. (Doctoral thesis). https://hdl.handle.net/10037/22115Publisher
ElsevierCitation
Jin, J.; Virk, M.S. (2019) Study of ice accretion and icing effects on aerodynamic characteristics of DU96 wind turbine blade profile. Cold Regions Science and Technology, 160, 119-127.Metadata
Show full item recordCollections
© 2019 Elsevier B.V. All rights reserved