Flexible nozzles in pulsed jets increase hydrodynamic impulse by 61.92% through elastic wave propagation that delays expansion, enhances entrainment and energy storage, and boosts acceleration during contraction.
Computers in Physics , volume=
2 Pith papers cite this work. Polarity classification is still indexing.
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physics.flu-dyn 2years
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UNVERDICTED 2representative citing papers
Squid achieve superpropulsion via a compliant funnel nozzle acting as an elastic capacitor that amplifies impulse through phase-lagged energy storage and release.
citing papers explorer
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Elastic wave propagation governs impulse enhancement in pulsed jets through flexible nozzles
Flexible nozzles in pulsed jets increase hydrodynamic impulse by 61.92% through elastic wave propagation that delays expansion, enhances entrainment and energy storage, and boosts acceleration during contraction.
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Squid-inspired soft superpropulsion
Squid achieve superpropulsion via a compliant funnel nozzle acting as an elastic capacitor that amplifies impulse through phase-lagged energy storage and release.