Numerical Simulation of High Lift Trap Wing using STAR-CCM+
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Results from numerical simulations of the NASA trapezoidal wing geometry using the unstructured finite-volume-based solver STAR-CCM+ are presented. General polyhedral meshes are generated using automated techniques that are amenable to rapid grid generation for industrial use. A steady-state RANS approach is employed using the SST k-ω turbulence model coupled with a predictive laminar-to-turbulent transition model. Results are compared to experimental measurements provided as part of the 1st AIAA High-Lift Prediction Workshop (HiLiftPW-1), both with and without slat/flap support brackets.

Author Name: 
Prashanth Shankara and Deryl Snyder
Author Company: 
CD-adapco
Products: 
Conference Location: 
New Orleans, Louisiana,USA
Conference Proceeding PDF: 
Rights: 
2012 by Prashanth S. Shankara
Pages: 
14
Conference Date: 
월요일, 6월 25, 2012
Paper Reference: 
AIAA 2012-2920
Conference Name: 
30th AIAA Applied Aerodynamics Conference
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