MEASURING THE ORIENTATION AND ROTATION RATE OF 3D PRINTED PARTICLES IN TURBULENCE etc15 Tracking Number 463Presentation: Session: Lagrangian aspects of turbulence 2 Room: Room G Session start: 10:30 Thu 27 Aug 2015 Stefan Kramel skramel@wesleyan.edu Affifliation: Wesleyan University Guy Geyer Marcus guygmarcus@jhu.edu Affifliation: Wesleyan University Shima Parsa sparsa@seas.harvard.edu Affifliation: Wesleyan University Brendan Cole bcole@wesleyan.edu Affifliation: Wesleyan University Rui Ni ruiniphi@gmail.com Affifliation: Wesleyan University Greg Voth gvoth@wesleyan.edu Affifliation: Wesleyan University Topics: - Lagrangian aspects of turbulence Abstract: The orientation distribution and rotations of anisotropic particles in turbulent flows play a key role in many applications ranging from icy clouds to papermaking and drag reduction in pipe flow. However, experimental access to time-resolved orientations of anisotropic particles has not been easy to achieve. The use of 3D printing opens up the possibility to fabricate a wide range of particle shapes with smallest dimension down to 300 μm. So far, we have printed rods, crosses, jacks, triads, tetrads and helical particle shapes. We extract particle orientations from stereoscopic video images using a method of least squares optimization in Euler angle space. We find that in turbulence, the orientation and rotation-rate of many particles can be understood using a simple picture of alignment of both the vorticity and a long axis of the particle with the Lagrangian stretching direction of the flow. |