Sensivity-based shape optimization of a rigid tramway low-height noise barrier
JOLIBOIS ; DUHAMEL ; SPARROW ; DEFRANCE ; JEAN
Type de document
COMMUNICATION AVEC ACTES INTERNATIONAL (ACTI)
Langue
anglais
Auteur
JOLIBOIS ; DUHAMEL ; SPARROW ; DEFRANCE ; JEAN
Résumé / Abstract
An urban low-height barrier meant to attenuate tramway noise for nearby walking pedestrians or cyclists is considered. The efficiency of this type of device is known to depend on the shape of the cross section and the acoustic properties of the surface treatment. Some sort of absorptive material is often required to enhance the performance by preventing the multi-re?ection phenomenon, however such materials can be costly compared to acoustically rigid materials such as concrete. In this study, a rigid barrier is assumed but its shape is optimized using a sensitivity-based shape optimization algorithm coupled to the two dimensional BEM. The shape is here described in a very general fashion by mesh nodes coordinates, which can involve a large number of variables. Sensitivities with respect to all coordinates are calculated efficiently using the adjoint state approach, without signi?cant increase of computation time. Numerical results show that optimized shapes tend to be quite irregular but provide a signi?cant improvement compared to simpler shapes, especially in the mid and high frequency range. Intensity calculations seem to suggest that this improvement is due to scattering of the incident acoustic energy in the upwards direction, therefore reducing the diffracted energy which reaches the shadow zone. Extra calculations show that the bene?t of the optimized shapes can still be signi?cant even in more realistic situations.
Editeur
INCE
