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Feasibility of the Navier-Stokes harmonic balance method for modelling aircraft unsteady aerodynamics

Feasibility of the Navier-Stokes harmonic balance method for modelling aircraft unsteady aerodynamics
Feasibility of the Navier-Stokes harmonic balance method for modelling aircraft unsteady aerodynamics
Traditionally, the models of the unsteady aerodynamic loads needed for aircraft flight simulations have been estimated using the aerodynamic derivatives approach, which, using linear aerodynamic models, provides the influence of the aircraft motion rates on the aerodynamic forces and moments. With increasing aircraft maneuverability resulting in nonlinear unsteady flow regimes, however, the linearity assumption of the conventional aerodynamic derivatives approach makes the method questionable. Methods with higher reliability have been show to be achievable by using knowledge of the aircraft aerodynamic response to harmonic excitations. Prompted by the need of rapidly and accurately estimating such response, this study demonstrates the applicability of the nonlinear frequency–domain Navier–Stokes Harmonic Balance method for predicting periodic aircraft flows with low and high levels of nonlinearity. Using the NASA Common Research Model aircraft case study, it is found that the Harmonic Balance technology yields estimates of the unsteady forces differing negligibly from those of the standard time–domain Navier–Stokes method with a runtime analysis reduced by at least one order of magnitude over that of the time–domain approach.
International Council of the Aeronautical Sciences
Drofelnik, Jernej
e785f695-61ef-4afc-bf0a-9dc7966f5516
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Campobasso, Sergio
3a6df7cd-55fc-4321-b116-7b09827e03fd
Drofelnik, Jernej
e785f695-61ef-4afc-bf0a-9dc7966f5516
Da Ronch, Andrea
a2f36b97-b881-44e9-8a78-dd76fdf82f1a
Campobasso, Sergio
3a6df7cd-55fc-4321-b116-7b09827e03fd

Drofelnik, Jernej, Da Ronch, Andrea and Campobasso, Sergio (2018) Feasibility of the Navier-Stokes harmonic balance method for modelling aircraft unsteady aerodynamics. In Proceedings of the 31st Congress of the International Council of the Aeronautical Sciences. International Council of the Aeronautical Sciences. 10 pp .

Record type: Conference or Workshop Item (Paper)

Abstract

Traditionally, the models of the unsteady aerodynamic loads needed for aircraft flight simulations have been estimated using the aerodynamic derivatives approach, which, using linear aerodynamic models, provides the influence of the aircraft motion rates on the aerodynamic forces and moments. With increasing aircraft maneuverability resulting in nonlinear unsteady flow regimes, however, the linearity assumption of the conventional aerodynamic derivatives approach makes the method questionable. Methods with higher reliability have been show to be achievable by using knowledge of the aircraft aerodynamic response to harmonic excitations. Prompted by the need of rapidly and accurately estimating such response, this study demonstrates the applicability of the nonlinear frequency–domain Navier–Stokes Harmonic Balance method for predicting periodic aircraft flows with low and high levels of nonlinearity. Using the NASA Common Research Model aircraft case study, it is found that the Harmonic Balance technology yields estimates of the unsteady forces differing negligibly from those of the standard time–domain Navier–Stokes method with a runtime analysis reduced by at least one order of magnitude over that of the time–domain approach.

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More information

Published date: September 2018
Venue - Dates: 31st Congress of the International Council of the Aeronautical Sciences (ICAS 2018), , Belo Horizonte, Brazil, 2018-09-09 - 2018-09-14
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Identifiers

Local EPrints ID: 484001
URI: http://eprints.soton.ac.uk/id/eprint/484001
PURE UUID: b2f36ecb-6744-4f5b-bb6e-934a6a7ccae1
ORCID for Andrea Da Ronch: ORCID iD orcid.org/0000-0001-7428-6935

Catalogue record

Date deposited: 08 Nov 2023 18:22
Last modified: 18 Mar 2024 03:25

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Contributors

Author: Jernej Drofelnik
Author: Andrea Da Ronch ORCID iD
Author: Sergio Campobasso

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