A review of powering unmanned aerial vehicles by clean and
By addressing gaps in efficiency, scalability, and environmental resilience, this review identifies pathways for advancing UAV propulsion technologies.
A critical review on unmanned aerial vehicles power supply
To increase endurance and achieve good performance, UAVs generally use a hybrid power supply system architecture. A hybrid power architecture may com-bine several power sources
(PDF) Thermal Management for Unmanned Aerial
Effective thermal management is essential for maintaining payload integrity, especially during extended flights or harsh
(PDF) Energy storage technologies and their
In order for electrical energy to be used efficiently, it must be stored. This article reviews energy storage technologies used in aviation,
(PDF) Thermal Management for Unmanned Aerial Vehicle
Effective thermal management is essential for maintaining payload integrity, especially during extended flights or harsh environmental conditions. This review presents a
(PDF) Energy storage technologies and their combinational
In order for electrical energy to be used efficiently, it must be stored. This article reviews energy storage technologies used in aviation, specifically for micro/mini Unmanned
Drone Energy Consumption_26052022
Many key advantages of EMs make them appropriate for UAVs, including their low thermal and acoustic signatures, well-developed electronic controls, ease of adaptation to automatic
A Hybrid Energy Storage System for eVTOL Unmanned Aerial
Electric vertical take-off and landing (eVTOL) aircraft have gained considerable interest for their potential to transform public services and meet environmental objectives. Designing an
Study of Phase Change Thermal Management Architecture for
In this study, a comparative analysis of two types of thermal management technologies for a UAV with a series-hybrid powertrain architecture was performed.
Energy Analysis for Solar-Powered Unmanned Aerial Vehicle
The energy conversion during the gliding phase is not ignored, but this is not suitable for SUAVs. For these reasons, this paper aims to study the electric energy variation in
Energy Analysis for Solar-Powered Unmanned
The energy conversion during the gliding phase is not ignored, but this is not suitable for SUAVs. For these reasons, this paper
Fuel cells for multirotor unmanned aerial vehicles: A comparative
With higher energy densities, fuel cells can overcome the range limitations of lithium battery-powered aircraft. This paper is to address two important issues often overlooked in
Thermal Management for Unmanned Aerial Vehicle Payloads
Effective thermal management is essential for maintaining payload integrity, especially during extended flights or harsh environmental conditions. This review presents a