Abstract
Micro aerial vehicles (MAVs) are finding new applications every day, from surveillance to civil structure health monitoring and exciting photography. Parallel advancements in ultra-thin, high power-to-weight ratio (PWR) solar panels are
paving the way for sustained flight, especially for MAVs that are heavily dependent on the limited energy density of batteries. There is renewed interest in solar-powered MAVs, which can offer unprecedented flight times on sunny days. In this context, we propose a solar-powered hybrid MAV configuration, named ’Solar Swifter’ that combines the performance of a quadcopter, allowing vertical take-off and landing (VTOL), with the capabilities of a fixed-wing aircraft for conventional cruise flight. Preliminary analysis has shown that with just 1.9 W from ultrahigh PWR air-stable solar panels (Organic Photovoltaic, OPV), an MAV with a mass of 51g can achieve vertical take-off and fly at 8m/s. This performance can be further enhanced by using a lower aspect ratio wing, resulting in a square-shaped wing. The next step in developing the Solar Swifter is to investigate the aerodynamic effects of a fan-in-wing configuration at low Reynolds numbers, which has not been studied in the past.
paving the way for sustained flight, especially for MAVs that are heavily dependent on the limited energy density of batteries. There is renewed interest in solar-powered MAVs, which can offer unprecedented flight times on sunny days. In this context, we propose a solar-powered hybrid MAV configuration, named ’Solar Swifter’ that combines the performance of a quadcopter, allowing vertical take-off and landing (VTOL), with the capabilities of a fixed-wing aircraft for conventional cruise flight. Preliminary analysis has shown that with just 1.9 W from ultrahigh PWR air-stable solar panels (Organic Photovoltaic, OPV), an MAV with a mass of 51g can achieve vertical take-off and fly at 8m/s. This performance can be further enhanced by using a lower aspect ratio wing, resulting in a square-shaped wing. The next step in developing the Solar Swifter is to investigate the aerodynamic effects of a fan-in-wing configuration at low Reynolds numbers, which has not been studied in the past.
Original language | English |
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Title of host publication | IMAV2024 – Proceedings |
Publisher | IMAV (International Micro Air Vehicles) |
Pages | 109-115 |
Number of pages | 7 |
Publication status | Published - 20 Sept 2024 |
Event | 15th annual International Micro Air Vehicle Conference and Competition - Bristol, United Kingdom Duration: 16 Sept 2024 → 20 Sept 2024 Conference number: 15 https://2024.imavs.org/ |
Conference
Conference | 15th annual International Micro Air Vehicle Conference and Competition |
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Abbreviated title | IMAV 2024 |
Country/Territory | United Kingdom |
City | Bristol |
Period | 16/09/24 → 20/09/24 |
Internet address |