Optimal Ciliary Transport by Unsteady Flows
ORAL
Abstract
Cilia are vital for many life forms, from the swimming of microorganisms to the flows that facilitate healthy human brain and lung function. Previous studies largely assume steady state conditions, despite the presence of transient unsteady effects caused by beating cilia. Using theory, numerical simulations, and experiments with a tunable transient Reynolds number, we study how fluid inertia can be leveraged to generate optimal unsteady flows for ciliary transport.
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Presenters
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Margot Young
University of Pennsylvania
Authors
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Margot Young
University of Pennsylvania
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Rafal Błaszkiewicz
University of Warsaw
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Albane Théry
Department of Mathematics, University of Pennsylvania
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Talia Becker Calazans
University of Pennsylvania
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Maciej Lisicki
University of Warsaw
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Arnold JTM Mathijssen
University of Pennsylvania