Aerodynamics and Control of Next Generation Electric Rotorcraft

Hocking, Graeme; Sweatman, Winston; Maldon, Benjamin; Boral, Susam; Braun, Philipp; Kurihara, Hiroaki; Meylan, Michael H.; Rüffer, Björn; Thamwattana, Natalie

Title: Aerodynamics and Control of Next Generation Electric Rotorcraft
Creator: Hocking, Graeme; Sweatman, Winston; Maldon, Benjamin; Boral, Susam; Braun, Philipp; Kurihara, Hiroaki; Meylan, Michael H.; Rüffer, Björn; Thamwattana, Natalie
Relation: ANZIAM Journal Vol. 62, Issue 2022, p. M42-M72
Publisher Link: http://dx.doi.org/10.21914/anziamj.v62.15964
Publisher: Cambridge University Press
Resource Type: journal article
Date: 2022
Description: Innovative design of helicopters promises great benefits over conventional aircraft but there are a number of technical challenges. Hyper Q Aerospace brought a project to the 2020 Mathematics-in-Industry Study Group to consider a helicopter design with a counter-rotating, coaxial, double rotor. Specific considerations were the vibration and harmonic properties of the rotor blades, the noise from the aircraft and the aerodynamic characteristics. Euler--Bernoulli beam theory and classical airfoil theory were implemented to consider the vibration and aerodynamic features of the aircraft and the rotor system. The fundamental lengthwise and lateral harmonics of the blades were obtained and compared with typical rotational forcing frequencies. The modification to the lift generated by the counter-rotating blades and noise mitigation strategies were discussed. Improved design strategies were presented.
Subject: design; helicopters; aerospace; rotor blades
Identifier: http://hdl.handle.net/1959.13/1478464
Identifier: uon:50183
Identifier: ISSN:1445-8810
Language: eng
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