2023
DOI: 10.3390/jmse11081559
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Investigation of Submergence Depth and Wave-Induced Effects on the Performance of a Fully Passive Energy Harvesting Flapping Foil Operating Beneath the Free Surface

Nikos Petikidis,
George Papadakis

Abstract: This paper investigates the performance of a fully passive flapping foil device for energy harvesting in a free surface flow. The study uses numerical simulations to examine the effects of varying submergence depths and the impact of monochromatic waves on the foil’s performance. For the numerical simulations, a in-house artificial compressibility two-phase solver is employed and coupled with a rigid body dynamic solver. The results show that the fully passive flapping foil device can achieve high efficiency f… Show more

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Cited by 5 publications
(2 citation statements)
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“…Incorporating a Gurney flap was found to increase vortex formation at the rear edge and amplify the pressure differential along the foil, boosting heaving force and resulting in 21% improvements in energyharvesting efficiency [42,43]. The exploration of fully passive flapping foils in free surface flow aimed to identify optimal submergence depths and the effects of monochromatic waves [44]. A responsive control mechanism has been designed to adjust the attack angle, with the goal of increasing lift force and improving overall power output [45].…”
Section: Introductionmentioning
confidence: 99%
“…Incorporating a Gurney flap was found to increase vortex formation at the rear edge and amplify the pressure differential along the foil, boosting heaving force and resulting in 21% improvements in energyharvesting efficiency [42,43]. The exploration of fully passive flapping foils in free surface flow aimed to identify optimal submergence depths and the effects of monochromatic waves [44]. A responsive control mechanism has been designed to adjust the attack angle, with the goal of increasing lift force and improving overall power output [45].…”
Section: Introductionmentioning
confidence: 99%
“…They [21] proposed a tandem-hydrofoil-based tidal array with improved density and reduced costs. Petikidis and Papadakis [22] studied fully passive flapping foils in free surface flow, determining optimal submergence depths and assessing the influence of monochromatic waves. Dahmani and Sohn [23] introduced a novel approach using oscillating tandem wings inside a convergent duct to enhance power extraction in energy harvesting.…”
Section: Introductionmentioning
confidence: 99%