Wake structure and thrust generation of a flapping foil in two-dimensional flow
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Publication:5364439
DOI10.1017/jfm.2016.808zbMath1383.76116OpenAlexW2562114811WikidataQ56489964 ScholiaQ56489964MaRDI QIDQ5364439
Teis Schnipper, Anders Andersen, Tomas Bohr, Jens Honoré Walther
Publication date: 28 September 2017
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://orbit.dtu.dk/en/publications/302e5ec5-c861-43c0-b5d6-8e476caf36af
Related Items (17)
Investigations into transient wakes behind a custom airfoil undergoing pitching motion ⋮ Scaling laws for drag-to-thrust transition and propulsive performance in pitching flexible plates ⋮ Numerical investigations on bionic propulsion problems using the multi-resolution delta-plus SPH model ⋮ Swimming performance, resonance and shape evolution in heaving flexible panels ⋮ Harmonic forcing of a laminar bluff body wake with rear pitching flaps ⋮ Characterization of bifurcated dual vortex streets in the wake of an oscillating foil ⋮ Hydrodynamic performance of slender swimmer: effect of travelling wavelength ⋮ Footprints of a flapping wing ⋮ Thrust, drag and wake structure in flapping compliant membrane wings ⋮ Universal scaling law for drag-to-thrust wake transition in flapping foils ⋮ Self-directed propulsion of an unconstrained flapping swimmer at low Reynolds number: hydrodynamic behaviour and scaling laws ⋮ Flow past a rotationally oscillating cylinder with an attached flexible filament ⋮ Influence of three-dimensionality on propulsive flapping ⋮ Vortex force map method for viscous flows of general airfoils ⋮ Comparative analysis of the characteristics of the vortex wake behind a flapping wing performing oscillations of different types ⋮ Critical indicators of dynamic stall vortex ⋮ Efficient thrust enhancement by modified pitching motion
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- Existence of a sharp transition in the peak propulsive efficiency of a low- pitching foil
- Aquatic animal propulsion of high hydromechanical efficiency
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