Aerodynamic effects of canopy inflation in paragliding

In this study, the aerodynamic effects of the inflation of a paraglider wing (canopy) are investigated at the maximum chord Reynolds number of 330000. The aerodynamic forces and surface flow patterns were compared between the inflated and uninflated canopy models in a wide range of angles of attack....

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Bibliographic Details
Published in:Journal of mechanical science and technology 2022, 36(4), , pp.1835-1846
Main Authors: Chae, Seokbong, Shin, Jeonghan, Shin, Yisu, Hwang, Seongyun, Park, Jungmok, Song, Ginseok, Kim, Jooha
Format: Article
Language:English
Subjects:
Aerodynamic coefficients
Aerodynamic forces
Angle of attack
Bubbles
Canopies
Control
Dynamical Systems
Engineering
Flow distribution
Fluid flow
Industrial and Production Engineering
Mechanical Engineering
Original Article
Reynolds number
Separation
Stalling
Vibration
기계공학
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Summary:In this study, the aerodynamic effects of the inflation of a paraglider wing (canopy) are investigated at the maximum chord Reynolds number of 330000. The aerodynamic forces and surface flow patterns were compared between the inflated and uninflated canopy models in a wide range of angles of attack. The stall angle and maximum lift coefficient of the inflated model are approximately 80 % and 38 % greater than those of the uninflated model. Before stall, dot- and line-shaped separation bubbles are formed on the inflated and uninflated models, respectively. The dot-shaped separation bubbles remain to a much higher angle of attack than the line-shaped one, with little change in the size and location. For the inflated model near stall, the flow is partially separated in the spanwise center, and the separation bubbles remaining are distorted. After stall, the canopy inflation has little effect on aerodynamic performance as the flow is fully separated.
ISSN:1738-494X
1976-3824
DOI:10.1007/s12206-022-0320-6