Add to ORKGExperiments are reported on the hydrodynamic performance of a flexible fin. The fin replicates some features of the pectoral fin of a batoid fish (such as a ray or skate) in that it is actuated in a travelling wave motion, with the amplitude of the motion increasing linearly along the span from root to tip. Thrust is found to increase with non-dimensional frequency, and an optimal oscillatory gait is identified. Power consumption measurements lead to the computation of propulsive efficiency, and an optimal efficiency condition is evaluated. Wake visualizations are presented, and a vortex model of the wake near zero net thrust is suggested. Strouhal number effects on the wake topology are also illustrated. 1
The study of fish swimming is of great interest for engineers and researchers because the investigat...
It is well known that fishes and cetaceans can achieve extraordinary propulsive performance, acceler...
Aquatic propulsion by means of undulatory movements of the median (dorsal and anal) fins is the prim...
Among all aquatic species, mantas and rays swim by oscillating their pectoral fins; this motion is s...
AbstractThis paper describes a computational study of the hydrodynamics of a ray-inspired underwater...
Bionic propulsion has certain advantages over traditional propellers. Much research on pectoral fins...
Propulsive performance and flow field data were experimentally measured for a two degree-of-freedom ...
As a result of years of research on the comparative biomechanics and physiology of moving through wa...
Fin kinematics is the key to thrust generation of oscillatory pectoral fins of manta rays. This coul...
Among all aquatic species, mantas and rays swim by flapping their pectoral fins; this motion is simi...
Underwater fish of the class Batoidea, commonly known as rays and skates, use large cartilaginous wi...
Interest in autonomous underwater vehicles is constantly increasing following the emerging needs of ...
International audienceFlexibility of marine animal fins has been thought to enhance swimming perform...
AbstractNumerical simulations are used to investigate the wake structure and hydrodynamic performanc...
Abstract: This paper developed a biomimetic batoid model to investigate the effect of amplitude on p...
The study of fish swimming is of great interest for engineers and researchers because the investigat...
It is well known that fishes and cetaceans can achieve extraordinary propulsive performance, acceler...
Aquatic propulsion by means of undulatory movements of the median (dorsal and anal) fins is the prim...
Among all aquatic species, mantas and rays swim by oscillating their pectoral fins; this motion is s...
AbstractThis paper describes a computational study of the hydrodynamics of a ray-inspired underwater...
Bionic propulsion has certain advantages over traditional propellers. Much research on pectoral fins...
Propulsive performance and flow field data were experimentally measured for a two degree-of-freedom ...
As a result of years of research on the comparative biomechanics and physiology of moving through wa...
Fin kinematics is the key to thrust generation of oscillatory pectoral fins of manta rays. This coul...
Among all aquatic species, mantas and rays swim by flapping their pectoral fins; this motion is simi...
Underwater fish of the class Batoidea, commonly known as rays and skates, use large cartilaginous wi...
Interest in autonomous underwater vehicles is constantly increasing following the emerging needs of ...
International audienceFlexibility of marine animal fins has been thought to enhance swimming perform...
AbstractNumerical simulations are used to investigate the wake structure and hydrodynamic performanc...
Abstract: This paper developed a biomimetic batoid model to investigate the effect of amplitude on p...
The study of fish swimming is of great interest for engineers and researchers because the investigat...
It is well known that fishes and cetaceans can achieve extraordinary propulsive performance, acceler...
Aquatic propulsion by means of undulatory movements of the median (dorsal and anal) fins is the prim...