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Experimental Investigation on Thrust Performance of a Small-Scale Staggered Rotor System in Hover

In recent years, the demand for Urban Air Mobility (UAM) and Micro Aerial Vehicles (MAVs) has driven the emergence of new aircraft designs, with the Staggered Rotor System being widely applied in these vertical take-off and landing aircraft. Due to the complex aerodynamic interference between rotors...

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Published in:	Drones (Basel) 2023-11, Vol.7 (11), p.677
Main Authors:	Zhu, He, Deng, Siqiang, Wei, Shaoxiong, Nie, Hong, Wei, Xiaohui
Format:	Article
Language:	English
Subjects:	Aerodynamic forces Aerodynamic interference aerodynamics Aircraft Aircraft configurations Analysis Controllers Design Design of experiments Experiments Flying-machines MAV Micro air vehicles (MAV) Parameters propulsion system Reynolds number Rotor speed staggered rotor Thrust Turbulence models Urban air mobility Velocity Vertical takeoff Vertical takeoff aircraft
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creator	Zhu, He Deng, Siqiang Wei, Shaoxiong Nie, Hong Wei, Xiaohui
description	In recent years, the demand for Urban Air Mobility (UAM) and Micro Aerial Vehicles (MAVs) has driven the emergence of new aircraft designs, with the Staggered Rotor System being widely applied in these vertical take-off and landing aircraft. Due to the complex aerodynamic interference between rotors, the spacing between them has a significant impact on the performance of these new aircraft configurations. A testbed was designed and validated to investigate the effects of parameters such as axial distance and lateral distance between rotors on the thrust performance of the Staggered Rotor System. A series of systematic thrust tests was conducted on two co-rotating small-scale rotor models, with particular focus on thrust testing of individual rotors in isolation and their comparison to the conditions of the Staggered Rotor System. During the experimental process, as both the axial and lateral distance varied, an orthogonal experimental design was employed to assess the influence of aerodynamic interactions caused by different rotor diameters on rotor performance. This study conducts an analysis of experimental data to investigate the influence of these factors on the performance of rotor systems’ thrust, while also examining the aerodynamic interference and aerodynamic force evolution patterns of rotor systems under varying parameters. Furthermore, rotor speed also plays a crucial role in the performance of the system. Therefore, when designing vertical take-off and landing aircraft with multiple rotors, it is essential to consider the influence of these factors during the optimization process.
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subjects	Aerodynamic forces Aerodynamic interference aerodynamics Aircraft Aircraft configurations Analysis Controllers Design Design of experiments Experiments Flying-machines MAV Micro air vehicles (MAV) Parameters propulsion system Reynolds number Rotor speed staggered rotor Thrust Turbulence models Urban air mobility Velocity Vertical takeoff Vertical takeoff aircraft
title	Experimental Investigation on Thrust Performance of a Small-Scale Staggered Rotor System in Hover
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