Abstract
Understanding fluid dynamics, the motions of materials that flow like liquids or gases, is crucial for addressing a variety of engineering challenges (e.g., ships, artificial biomedical devices, renewable energy systems). This video explores one complex phenomenon in fluid dynamics called vortex shedding, where fluid particles moving around an object swirl, and transport the swirls, called vortices, downstream, generating unsteady forces. The project examines vortex shedding using intuitive and fundamental methods of observing the motion of fluids - the injection of visible materials into the flow. First, dye visualization is explored to provide qualitative observations. Then, a quantitative optical technique known as particle image velocimetry (PIV) is introduced. The flows are observed in a large-scale state-of-the-art water tunnel, carefully designed with precise fluid flow conditioning devices and analyze a variety of fluid dynamics phenomena. Flow regimes in the tunnel, including laminar and turbulent flows, are introduced, with particular emphasis on their application to the vortex shedding process. Key examples demonstrating vortex shedding include wind interactions with tall buildings and fluid dynamics around moving objects like flags and boats. The video uses non-technical language and visuals oriented towards the general public in order inspire broader engagement in the research field of fluid mechanics and appreciation for the applications of fluid mechanics in everyday life.
Keywords
physics, hydrodynamics, fluid dynamics, fluid mechanics, water, vortex shedding, video essay
How to Cite
Butler, D. & Gerlock, S. J. & Wang, C. & Wang, Z., (2025) “Exploring the Wild World of Vortex Shedding in a Hydrodynamics Research Laboratory”, Synthesis: A Digital Journal of Student Science Communication 6(2). doi: https://doi.org/10.17077/2643-8410.33922
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