Abstract
Using their light wing and through the use of a leading-edge vortex (LEV), autorotating samaras can generate high lift while descending at extremely low speeds. But the flight performance of the samara, with respect to the wide design envelope, is still not well understood. Therefore, this paper aims to experimentally assess how the flight performance of three natural samara wings varies with differing wind speeds and flight conditions. The tests were conducted within a vertical wind tunnel and a novel rig was devised to effectively measure the vertical thrust and rotational rate of the autorotating samara at near frictionless conditions. Furthermore, a bespoke hub was implemented to control the coning and pitch angles of the samara wing. The tests generated a novel and comprehensive set of experimental data of autorotating samaras with changing wind speed, coning and pitch angles. The results also revealed that coning angles between 5 and 15 degrees can increase the vertical thrust produced by the samara by up to a maximum of 9.6%
. Additionally, it was found that samaras operate at extremely low pitch angles between −0.7 and −2.6 degrees to maximise their thrust, even though the conditions are close to the autorotational stability boundary.
. Additionally, it was found that samaras operate at extremely low pitch angles between −0.7 and −2.6 degrees to maximise their thrust, even though the conditions are close to the autorotational stability boundary.
Original language | English |
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Article number | 240758 |
Number of pages | 30 |
Journal | Royal Society Open Science |
Volume | 11 |
Issue number | 9 |
DOIs | |
Publication status | Published - 30 Sept 2024 |
Bibliographical note
Publisher Copyright:© 2024 The Author(s).