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Effect of motor-rotor Geometry on the Performance of Electric VTOL UAVs

Effect of motor-rotor Geometry on the Performance of Electric VTOL UAVs
Effect of motor-rotor Geometry on the Performance of Electric VTOL UAVs
This paper aims to quantify the impact of the orientation and position of a vertical lifting motor-rotor system on the aerodynamic performance of a wing. The analysis was conducted on the scaled wing of an electric uncrewed aerial vehicle using wind tunnel measurements to quantify the difference in performance between configurations. The wind tunnel model was produced by applying a set of non-dimensional parameters to scale an existing quad-plane design, conserving important features to make the result both feasible and generalised. The design was analysed at a Reynolds number of 430,000 to be comparable to the operating conditions of the existing vehicle. The analysis is conducted using two-bladed rotors that are prevented from rotating in the oncoming flow (braked). The influence of the braked angle of the front and rear rotors on the aerodynamic performance of the wing was tested at 30◦ brake angle increments between 0-150◦ over wing angles of attack between -4◦ and 10◦. Results show that the braked angles of the front and rear rotor have a significant impact on the aerodynamic drag. In particular, aligning both rotors so that the blades are perpendicular to the wing chord can result in a 25-30% increase in drag when compared to the case of both rotors aligned parallel to the chord direction. Additionally, the aerodynamic penalty incurred by the vertical lifting subsystem (motors and supporting structure) was also measured.
Westcott, Oliver
ab2090d6-fa00-44dc-b64d-5346c60a929b
Krishna, Swathi
b8d18885-c9af-4d17-8ddf-cec91e1663c9
Ferraro, Mario
bb685634-3a36-49dd-bd2e-ade3f475796c
Entwistle, Bob
dbd48cc0-bd30-4727-82fa-e51d6ea3dfef
Westcott, Oliver
ab2090d6-fa00-44dc-b64d-5346c60a929b
Krishna, Swathi
b8d18885-c9af-4d17-8ddf-cec91e1663c9
Ferraro, Mario
bb685634-3a36-49dd-bd2e-ade3f475796c
Entwistle, Bob
dbd48cc0-bd30-4727-82fa-e51d6ea3dfef

Westcott, Oliver, Krishna, Swathi, Ferraro, Mario and Entwistle, Bob (2023) Effect of motor-rotor Geometry on the Performance of Electric VTOL UAVs. AIAA SciTech 2023 Forum, Gaylord National Resort & Convention Center, National Harbor, United States. 23 - 27 Jan 2023. (doi:10.2514/6.2023-1923).

Record type: Conference or Workshop Item (Paper)

Abstract

This paper aims to quantify the impact of the orientation and position of a vertical lifting motor-rotor system on the aerodynamic performance of a wing. The analysis was conducted on the scaled wing of an electric uncrewed aerial vehicle using wind tunnel measurements to quantify the difference in performance between configurations. The wind tunnel model was produced by applying a set of non-dimensional parameters to scale an existing quad-plane design, conserving important features to make the result both feasible and generalised. The design was analysed at a Reynolds number of 430,000 to be comparable to the operating conditions of the existing vehicle. The analysis is conducted using two-bladed rotors that are prevented from rotating in the oncoming flow (braked). The influence of the braked angle of the front and rear rotors on the aerodynamic performance of the wing was tested at 30◦ brake angle increments between 0-150◦ over wing angles of attack between -4◦ and 10◦. Results show that the braked angles of the front and rear rotor have a significant impact on the aerodynamic drag. In particular, aligning both rotors so that the blades are perpendicular to the wing chord can result in a 25-30% increase in drag when compared to the case of both rotors aligned parallel to the chord direction. Additionally, the aerodynamic penalty incurred by the vertical lifting subsystem (motors and supporting structure) was also measured.

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More information

Published date: 19 January 2023
Venue - Dates: AIAA SciTech 2023 Forum, Gaylord National Resort & Convention Center, National Harbor, United States, 2023-01-23 - 2023-01-27

Identifiers

Local EPrints ID: 477495
URI: http://eprints.soton.ac.uk/id/eprint/477495
DOI: doi:10.2514/6.2023-1923
PURE UUID: 92b794f0-9c9a-422c-879b-04ebd3a6d3e4
ORCID for Swathi Krishna: ORCID iD orcid.org/0000-0003-4316-7428
ORCID for Bob Entwistle: ORCID iD orcid.org/0000-0002-1453-2820

Catalogue record

Date deposited: 07 Jun 2023 16:50
Last modified: 17 Mar 2024 04:08

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Contributors

Author: Oliver Westcott
Author: Swathi Krishna ORCID iD
Author: Mario Ferraro
Author: Bob Entwistle ORCID iD

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