Aerodynamics of flying seeds
This report presents a preliminary experimental analysis of different autorotating seeds with varying wing configurations to visualize and compare their steady-state behaviours and performances. These autorotating seeds are naturally dispersed by wind and therefore have wing-like structures to...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2024
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| Online Access: | https://hdl.handle.net/10356/176410 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | This report presents a preliminary experimental analysis of different autorotating
seeds with varying wing configurations to visualize and compare their steady-state
behaviours and performances. These autorotating seeds are naturally dispersed by
wind and therefore have wing-like structures to increase their landing distances away
from their parent trees. These wing-like structures cause the seeds to gyrate about a
centre axis of rotation; thereby slowing down their rate of descent to achieve further
dispersal distances. In this study, five different species of seeds were experimented
on: namely the Swietenia macrophylla seed, Tabebuia rosea seed, Hopea odorata
seed, Shorea roxburghii seed, and Petrea volubilis seed. A closed containment setup
with an actuating system along with high-speed cameras were used to facilitate the
data collection. The results indicated that the Petrea volubilis seed had the lowest
wing loading, correlating with the lowest steady-state descent velocity and
revolutions per minute (RPM). Conversely, the Shorea roxburghii seed exhibited the
highest wing loading and highest steady-state descent velocity and RPM. This report
also provides various explanations for the observed trends and proposes
recommendations for future studies on this topic. |
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