Add to ORKGThe interaction between swimming and flying animals and their fluid environments generates downstream wake structures such as vortices. In most studies, the upstream flow in front of the animal is neglected. In this study, we demonstrate the existence of upstream fluid structures even though the upstream flow is quiescent or possesses a uniform incoming velocity. Using a computational model, the flow generated by a swimmer (an oscillating flexible plate) is simulated and a new fluid mechanical analysis is applied to the flow to identify the upstream fluid structures. These upstream structures show the exact portion of fluid that is going to interact with the swimmer. A mass flow rate is then defined based on the upstream structures, and a m...
Aquatic locomotion of a deformable body from rest up to its asymptotic speed is given by the unstead...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
Many animals in nature travel in groups either for protection, survival, or endurance. Among these, ...
The fluid dynamic analysis of animal wakes is becoming increasingly popular in studies of animal swi...
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attributi...
Swimming animals need to generate propulsive force to overcome drag, regardless of whether they swim...
Many aquatic and aerial animal species are known to utilise their surrounding flow field and/or the ...
Swimming and flying animals generate unsteady locomotive forces by delivering net momentum into the ...
We employ a three-dimensional, nonlinear inviscid numerical method, in conjunction with experimenta...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
SYNOPSIS. Despite enormous progress during the last twenty years in understanding the mechanistic ba...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
The aim of this paper is to show the significance of vortices in animal locomotion in fluids on two ...
The fluid dynamics of animal locomotion, such as that of an undulating fish, are of great interest t...
A few broad general questions have been central to the study of the dynamics and energetics of anima...
Aquatic locomotion of a deformable body from rest up to its asymptotic speed is given by the unstead...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
Many animals in nature travel in groups either for protection, survival, or endurance. Among these, ...
The fluid dynamic analysis of animal wakes is becoming increasingly popular in studies of animal swi...
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attributi...
Swimming animals need to generate propulsive force to overcome drag, regardless of whether they swim...
Many aquatic and aerial animal species are known to utilise their surrounding flow field and/or the ...
Swimming and flying animals generate unsteady locomotive forces by delivering net momentum into the ...
We employ a three-dimensional, nonlinear inviscid numerical method, in conjunction with experimenta...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
SYNOPSIS. Despite enormous progress during the last twenty years in understanding the mechanistic ba...
It is generally accepted that animal–fluid interactions have shaped the evolution of animals that sw...
The aim of this paper is to show the significance of vortices in animal locomotion in fluids on two ...
The fluid dynamics of animal locomotion, such as that of an undulating fish, are of great interest t...
A few broad general questions have been central to the study of the dynamics and energetics of anima...
Aquatic locomotion of a deformable body from rest up to its asymptotic speed is given by the unstead...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
Many animals in nature travel in groups either for protection, survival, or endurance. Among these, ...