Vortex capture in leader wakes, not drafting in reduced mean flow, drives the thrust and efficiency gains in compact three-hydrofoil schools.
arXiv preprint arXiv:2102.03571 , year=
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Vortex sheet simulations of heaving plates demonstrate quantized stable schooling modes that destabilize with increasing plate count or decreasing amplitude, stabilized by a relative-velocity control law.
citing papers explorer
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Rather than drafting, vortex capture dictates efficiency in three-hydrofoil schools
Vortex capture in leader wakes, not drafting in reduced mean flow, drives the thrust and efficiency gains in compact three-hydrofoil schools.
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On the stability of an in-line formation of hydrodynamically interacting flapping plates
Vortex sheet simulations of heaving plates demonstrate quantized stable schooling modes that destabilize with increasing plate count or decreasing amplitude, stabilized by a relative-velocity control law.