Surprising behaviors in flapping locomotion with passive pitching
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Publication:3578489
DOI10.1063/1.3383215zbMath1190.76116OpenAlexW1991195999MaRDI QIDQ3578489
Michael J. Shelley, Jun Zhang, Lionel Moret, Saverio E. Spagnolie
Publication date: 20 July 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://semanticscholar.org/paper/5f550d5a1fc536ba13f52531d773672ffaf73ace
Related Items (22)
Locomotion of a flexible plate: how the boundary condition of the leading edge affects the self-propulsion performance ⋮ Numerical study on hydrodynamic effect of flexibility in a self-propelled plunging foil ⋮ Dynamics and locomotion of flexible foils in a frictional environment ⋮ Analysis of passive flexion in propelling a plunging plate using a torsion spring model ⋮ Asymptotic theory of a flapping wing of a circular cross-section ⋮ Unsteady two-dimensional jet with flexible flaps at the channel exit ⋮ Swimming performance, resonance and shape evolution in heaving flexible panels ⋮ High-order numerical simulations of the flow around a heaving airfoil ⋮ Stability of underwater periodic locomotion ⋮ Power synchronisations determine the hovering flight efficiency of passively pitching flapping wings ⋮ A fast Chebyshev method for simulating flexible-wing propulsion ⋮ Efficient Flapping Flight Using Flexible Wings Oscillating at Resonance ⋮ Thrust, drag and wake structure in flapping compliant membrane wings ⋮ Fluid–solid Floquet stability analysis of self-propelled heaving foils ⋮ Fluid‐Structure Interactions: Research in the Courant Institute's Applied Mathematics Laboratory ⋮ Contrasting thrust generation mechanics and energetics of flapping foil locomotory states characterized by a unified - scaling ⋮ Self-propulsion of flapping bodies in viscous fluids: recent advances and perspectives ⋮ A spherical squirming swimmer in unsteady Stokes flow ⋮ Lattice-Boltzmann lattice-spring simulations of flexibility and inertial effects on deformation and cruising reversal of self-propelled flexible swimming bodies ⋮ Dependence on aspect ratio of symmetry breaking for oscillating foils: implications for flapping flight ⋮ Collective locomotion of two-dimensional lattices of flapping plates. Part 1. Numerical method, single-plate case and lattice input power ⋮ Stabilizing effect of flexibility in the wake of a flapping foil
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