Abstract
The behavior of a vortex generated by a moving object subjected to vibration and fluidic noise has been investigated. Animals fly and swim by skillfully controlling vorticies generated around their bodies. Moreover, an elastic airfoil that enables elastic deformation in order to fly and swim with low energy has recently attracted a great deal of attention, and industrial applications of this elastic airfoil are expected. The authors performed the PIV measurement for vortex flow in the vicinity of a wall of the elastic NACA0010. We clarified quantitatively the change in the developing process of vortices generated in the vicinity of a wall with elastic deformation. Since the flow field is affected by the elastic deformation, we focused on the spatial changes of the vorticity. We used the vorticity transport equation to evaluate the spatial change of vorticity. The vorticity developed in the vicinity of the wall near the elastic NACA0010 continues to increase until the acceleration becomes the maximum, because the vorticity develops for main flow direction (x-direction).
