Design of a Flapping Fins Mechanism for Roll Damping of Yachts at Anchor: Kinematic, Hydrodynamic and Structural Study

Guerrero, Joel; Silvestri, Paolo; Canepa, Andrea

doi:10.3390/biomimetics8020144

Cited by 5 publications

(2 citation statements)

References 24 publications

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“…It can fully integrate flying fish features and bionic UAAV flight requirements of water cross-over. (2) The bionic UAAV, modeled as a flying fish, has an excellent variant configuration to adapt to water cross-over. It has a high essential aerodynamic and hydrodynamic performance.…”

Section: Discussionmentioning

confidence: 99%

“…In the wake of developments in aircraft design and bionic mechanical science, bionic unmanned aquatic–aerial amphibious vehicles (bionic UAAVs) with variant configurations have gradually become one of the research hotspots [ 1 , 2 , 3 , 4 ]. Based on vehicle morphology and motion control ideas of natural organisms, the bionic UAAV can imitate their biological characteristics and configurations, which adapt to excellent amphibious survival characteristics in water and air.…”

Section: Introductionmentioning

confidence: 99%

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Aerodynamic/Hydrodynamic Investigation of Water Cross-Over for a Bionic Unmanned Aquatic–Aerial Amphibious Vehicle

Gan,

Zuo,

Zhuang

et al. 2024

Biomimetics

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An aerodynamic/hydrodynamic investigation of water cross-over is performed for a bionic unmanned aquatic–aerial amphibious vehicle (bionic UAAV). According to flying fish features and UAAV flight requirements of water cross-over, the bionic conceptual design of crossing over water is described and planned in multiple stages and modes of motion. A solution procedure for the numerical simulation method, based on a modified SST turbulence model and the VOF model, is expressed, and a verification study is presented using a typical case. Longitudinal–lateral numerical simulation analysis investigates the cruise performance underwater and in the air. The numerical simulation and principal experiment verification are conducted for crossing over water and water surface acceleration. The results indicate that the bionic UAAV has an excellent aerodynamic/hydrodynamic performance and variant configuration to adapt to water cross-over. The bionic UAAV has good water and air navigation stability, and the cruise flying lift–drag ratio is greater than 15 at a low Reynolds number. Its pitching moment has the phenomenon of a “water mound” forming and breaking at the water cross-over process. The present method and the bionic variant configuration provide a feasible water cross-over design and analysis strategy for bionic UAAVs.

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Section: Discussionmentioning

confidence: 99%