A computational inquiry focuses on leading-edge vortex (LEV) growth and shedding during acceleration of a two-dimensional flat plate at a fixed 10°–60° angle of attack and low Reynolds number. The plate accelerates from rest with a velocity given by a power of time ranging from 0 to 5. During the initial LEV growth, subtraction of the added mass lift from the computed lift reveals an LEV-induced lift augmentation evident across all powers and angles of attack. For the range of Reynolds numbers considered, a universal time scale exists for the peak when α ≥ 30°, with augmentation lasting about four to five chord lengths of translation. This time scale matches well with the half-stroke of a flying insect. An oscillating pattern of leading- an...
We investigate experimentally the force generated by the unsteady vortex formation of low-aspect-rat...
Flapping-wing micro air vehicles, based on insect-like apping, could potentially ll a niche in the c...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90640/1/AIAA-54000-610.pd
This paper discusses the force history and flow topology of accelerating flat-plate wings. The work ...
The present study is a prelude to applying different flow control devices on pitching and plunging a...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76249/1/AIAA-33205-926.pd
This study focuses on the formation and detachment of a leading edge vortex (LEV) appearing on an ai...
The elevated aerodynamic performance of insects has been attributed in part to the generation and ma...
This paper discusses the force history and flow topology of accelerating flat-plate wings. The work ...
The vortex produced at the leading edge of the wing, known as the leading edge vortex (LEV), plays a...
The aerodynamic forces on a flat plate accelerating from rest at fixed incidence in two-dimensional ...
The wings of many insect species including crane flies and damselflies are petiolate (on stalks), wi...
AbstractThe flow field over an accelerating rotating wing model at Reynolds numbers Re ranging from ...
Unsteady aerodynamic phenomena are encountered in a large number of modern aerospace and non-aerospa...
While a leading-edge vortex on an infinite translating wing is shed after a short distance of travel...
We investigate experimentally the force generated by the unsteady vortex formation of low-aspect-rat...
Flapping-wing micro air vehicles, based on insect-like apping, could potentially ll a niche in the c...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90640/1/AIAA-54000-610.pd
This paper discusses the force history and flow topology of accelerating flat-plate wings. The work ...
The present study is a prelude to applying different flow control devices on pitching and plunging a...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76249/1/AIAA-33205-926.pd
This study focuses on the formation and detachment of a leading edge vortex (LEV) appearing on an ai...
The elevated aerodynamic performance of insects has been attributed in part to the generation and ma...
This paper discusses the force history and flow topology of accelerating flat-plate wings. The work ...
The vortex produced at the leading edge of the wing, known as the leading edge vortex (LEV), plays a...
The aerodynamic forces on a flat plate accelerating from rest at fixed incidence in two-dimensional ...
The wings of many insect species including crane flies and damselflies are petiolate (on stalks), wi...
AbstractThe flow field over an accelerating rotating wing model at Reynolds numbers Re ranging from ...
Unsteady aerodynamic phenomena are encountered in a large number of modern aerospace and non-aerospa...
While a leading-edge vortex on an infinite translating wing is shed after a short distance of travel...
We investigate experimentally the force generated by the unsteady vortex formation of low-aspect-rat...
Flapping-wing micro air vehicles, based on insect-like apping, could potentially ll a niche in the c...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90640/1/AIAA-54000-610.pd