A vortical impulse theory is used to compute the lift, thrust and moment of two-dimensional flapping foils in tandem configuration within the framework of unsteady linear potential theory. First, general expressions are derived for any set of oscillating foils of arbitrary chord lengths, taking into account the effect of their unsteady wakes and the interaction of any set of moving point vortices. Then, analytical explicit solutions for the lift, thrust and moment are obtained for the specific case of two oscillating airfoils in tandem configuration. In the limit of large separation distance, we recover the expressions of a single oscillating foil for the forewing, but the hindwing is always affected by the unsteady wake of the forewing. Th...
We determine the flow field generated by a two-dimensional foil in steady forward motion and a comb...
The linearized theory for compressible unsteady flow is used, as suggested in recent contributions t...
The aerodynamics of oscillating airfoils are crucial to understanding subjects such as rotor dynamic...
The cruising velocity of animals, or robotic vehicles, that use flapping wings or fins to propel the...
The cruising velocity of animals, or robotic vehicles, that use flapping wings or fins to propel the...
In this study, we present two and three-dimensional numerical investigation to understand the combin...
The propulsive performance of a pair of tandem flapping foils is sensitively dependent on the spacin...
The linearized theory for compressible unsteady flow is used, as suggested in recent contributions t...
We performed numerical experiments on a one-dimensional elastic solid oscillating in a two-dimension...
A two-dimensional computational hydrodynamic model is developed to investigate the propulsive perfor...
© 1995, by the American Institute of Aeronautics and Astronautics, Inc. All rights reserved.Unsteady...
Computational and experimental methods have been used to systematically study one and two airfoils u...
A linearized, two-dimensional, potential flow analysis of multi-element airfoil configurations is at...
Previous investigations of flapping hydrofoils for the purpose of thrust production have been limite...
(ABSTRACT) Unsteady aerodynamic theories are essential in the analysis of bird and insect flight. Th...
We determine the flow field generated by a two-dimensional foil in steady forward motion and a comb...
The linearized theory for compressible unsteady flow is used, as suggested in recent contributions t...
The aerodynamics of oscillating airfoils are crucial to understanding subjects such as rotor dynamic...
The cruising velocity of animals, or robotic vehicles, that use flapping wings or fins to propel the...
The cruising velocity of animals, or robotic vehicles, that use flapping wings or fins to propel the...
In this study, we present two and three-dimensional numerical investigation to understand the combin...
The propulsive performance of a pair of tandem flapping foils is sensitively dependent on the spacin...
The linearized theory for compressible unsteady flow is used, as suggested in recent contributions t...
We performed numerical experiments on a one-dimensional elastic solid oscillating in a two-dimension...
A two-dimensional computational hydrodynamic model is developed to investigate the propulsive perfor...
© 1995, by the American Institute of Aeronautics and Astronautics, Inc. All rights reserved.Unsteady...
Computational and experimental methods have been used to systematically study one and two airfoils u...
A linearized, two-dimensional, potential flow analysis of multi-element airfoil configurations is at...
Previous investigations of flapping hydrofoils for the purpose of thrust production have been limite...
(ABSTRACT) Unsteady aerodynamic theories are essential in the analysis of bird and insect flight. Th...
We determine the flow field generated by a two-dimensional foil in steady forward motion and a comb...
The linearized theory for compressible unsteady flow is used, as suggested in recent contributions t...
The aerodynamics of oscillating airfoils are crucial to understanding subjects such as rotor dynamic...