
Reduction and optimization of a vehicle's rear side window buffeting
A feasible and efficient simulation and optimization method to reduce rear side window buffeting has been established and validated. For the simulation, a DES turbulence model with weakly compressible fluid was applied. By comparing the simulation results with wind tunnel test for different
wind speeds, the reliability of this calculation model has been verified. As a result of a buffeting generation mechanism analysis, it has been proposed to install a deflector on the B-pillar to suppress the buffeting. A case study with a partially cylindrical deflector demonstrates the effect
of buffeting reduction. Furthermore, with computer aided optimization using response surface method, the dimension of the partially cylindrical deflector on the B-pillar was optimized. For the buffeting controlling strategy, besides the buffeting peak sound pressure level (SPL), the aerodynamic
drag coefficient was considered simultaneously to constitute a two-objective optimization function with different weight. The optimized variables of the deflector were finally obtained with L = 186.0 mm, R = 29.5 mm and A = 54.6 . The result shows that the rear side window buffeting is suppressed
effectively with less impact on the drag value. The reduction of peak SPL of buffeting is more than 12 dB in comparison with original state without deflector.
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Document Type: Research Article
Affiliations: Shanghai Automotive Wind Tunnel Center, Tongji University
Publication date: 01 July 2018
NCEJ is the pre-eminent academic journal of noise control. It is the Journal of the Institute of Noise Control Engineering of the USA. Since 1973 NCEJ has served as the primary source for noise control researchers, students, and consultants.
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