Experimental Study to Increase the Autonomy of a UAV by Incorporating Solar Cells

Sampaio Saloio, João Pedro; Cruz, Gonçalo; Coelho, Vasco; N. Torres, João Paulo; Marques Lameirinhas, Ricardo A.

doi:10.3390/vehicles5040100

Vehicles

2023

DOI: 10.3390/vehicles5040100

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Experimental Study to Increase the Autonomy of a UAV by Incorporating Solar Cells

João Pedro Sampaio Saloio,

Gonçalo Cruz,

Vasco Coelho

et al.

Abstract: Solar energy is recognized as an alternative to combustion engines to reduce the environmental impact and increase the endurance of unmanned aerial vehicles (UAVs). This work aims to present a project for a solar UAV to contribute to the mission of the Air Force Academy Research Center and test the energy system on the ground. To achieve this study’s objectives, a literature review on photovoltaic cells (PVCs), batteries, and maximum power point tracking algorithms was conducted. The most appropriate airframe … Show more

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2024

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References 30 publications

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Paving the Way for Sustainable UAVs Using Distributed Propulsion and Solar-Powered Systems

Valencia,

Cruzatty,

Amaguaña

et al. 2024

Drones

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Hybrid systems offer optimal solutions for unmanned aerial platforms, showcasing their technological development in parallel and series configurations and providing alternatives for future aircraft concepts. However, the limited energetic benefit of these configurations is primarily due to their weight, constituting one of the main constraints. Solar PV technology can provide an interesting enhancement to the autonomy of these systems. However, to create efficient propulsion architectures tailored for specific missions, a flexible framework is required. This work presents a methodology to assess hybrid solar-powered UAVs in distributed propulsion configurations through a two-level modeling scheme. The first stage consists of determining operational and design constraints through parametric models that estimate the baseline energetic requirements of flight. The second phase executes a nonlinear optimization algorithm tuned to find optimal propulsion configurations in terms of the degree of hybridization, number of propellers, different wing loadings, and the setup of electric distributed propulsion (eDP) considering fuel consumption as a key metric. The results of the study indicate that solar-hybrid configurations can theoretically achieve fuel savings of up to 80% compared to conventional configurations. This leads to a significant reduction in emissions during long-endurance flights where current battery technology is not yet capable of providing sustained flight.

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Paving the Way for Sustainable UAVs Using Distributed Propulsion and Solar-Powered Systems

Valencia,

Cruzatty,

Amaguaña

et al. 2024

Drones

View full text Add to dashboard Cite

show abstract

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Experimental Study to Increase the Autonomy of a UAV by Incorporating Solar Cells

Cited by 1 publication

References 30 publications

Paving the Way for Sustainable UAVs Using Distributed Propulsion and Solar-Powered Systems

Paving the Way for Sustainable UAVs Using Distributed Propulsion and Solar-Powered Systems

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