Discrete Surface Evolution and Mesh Deformation for Aircraft Icing Applications | Zendy

David S. Thompson | Zendy; Xiaoling Tong | Zendy; Qiuhan Arnoldus | Zendy; Eric Collins | Zendy; Edward Luke | Zendy; Colin S. Bidwell | Zendy

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Discrete Surface Evolution and Mesh Deformation for Aircraft Icing Applications

Author(s) -

David S. Thompson,

Xiaoling Tong,

Qiuhan Arnoldus,

Eric Collins,

Edward Luke,

Colin S. Bidwell

Publication year - 2013

Publication title -

nasa sti repository (national aeronautics and space administration)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2013-2544

Subject(s) - icing , deformation (meteorology) , surface (topology) , materials science , aerospace engineering , computer science , mechanical engineering , engineering , composite material , geometry , physics , meteorology , mathematics

Robust, automated mesh generation for problems with deforming geometries, such as ice accreting on aerodynamic surfaces, remains a challenging problem. Here we describe a technique to deform a discrete surface as it evolves due to the accretion of ice. The surface evolution algorithm is based on a smoothed, face-offsetting approach. We also describe a fast algebraic technique to propagate the computed surface deformations into the surrounding volume mesh while maintaining geometric mesh quality. Preliminary results presented here demonstrate the ecacy of the approach for a sphere with a prescribed accretion rate, a rime ice accretion, and a more complex glaze ice accretion.

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