A constrained vortex model with relevance to helicopter vortex ring state
A constrained vortex model with relevance to helicopter vortex ring state
A planar model of a lifting surface descending into its own wake is constructed with the aim of demonstrating some underlying mechanisms of the ‘vortex ring’ state that may be entered
by a rotary wing aircraft during a vertical descent. The model uses line vortices that are periodically released from a point in space and then allowed to evolve in a constrained manner. For low descent velocities the model reproduces a hover state, where the wake vortices move downwards relative to the lifting plane. A critical descent speed is reached after which the model produces a quasi-periodic shedding of vortex agglomerations. This state is reached via a Hopf bifurcation of the steady state and persists until another critical descent velocity after which a steady windmill brake state is possible, in which vortices travel upwards in a regular manner. Unconstrained simulations reveal a more chaotic vortex pattern, but frequency analysis reveals an underlying structure similar to that shown for the constrained model. Besides offering a qualitative understanding of possible mechanisms of vortex ring state, the analysis suggests some dimensionless parameters that collapse the
model data.
vortex ring state, helicopter aerodynamics
University of Southampton
Sandham, N.D.
0024d8cd-c788-4811-a470-57934fbdcf97
1 September 2005
Sandham, N.D.
0024d8cd-c788-4811-a470-57934fbdcf97
Sandham, N.D.
(2005)
A constrained vortex model with relevance to helicopter vortex ring state
(Aerodynamics and Flight Mechanics Internal Report Series, AFM 05/05)
Southampton, UK.
University of Southampton
14pp.
Record type:
Monograph
(Project Report)
Abstract
A planar model of a lifting surface descending into its own wake is constructed with the aim of demonstrating some underlying mechanisms of the ‘vortex ring’ state that may be entered
by a rotary wing aircraft during a vertical descent. The model uses line vortices that are periodically released from a point in space and then allowed to evolve in a constrained manner. For low descent velocities the model reproduces a hover state, where the wake vortices move downwards relative to the lifting plane. A critical descent speed is reached after which the model produces a quasi-periodic shedding of vortex agglomerations. This state is reached via a Hopf bifurcation of the steady state and persists until another critical descent velocity after which a steady windmill brake state is possible, in which vortices travel upwards in a regular manner. Unconstrained simulations reveal a more chaotic vortex pattern, but frequency analysis reveals an underlying structure similar to that shown for the constrained model. Besides offering a qualitative understanding of possible mechanisms of vortex ring state, the analysis suggests some dimensionless parameters that collapse the
model data.
Text
ring_int_report2.pdf
- Accepted Manuscript
More information
Published date: 1 September 2005
Keywords:
vortex ring state, helicopter aerodynamics
Organisations:
Aerodynamics & Flight Mechanics
Identifiers
Local EPrints ID: 64136
URI: http://eprints.soton.ac.uk/id/eprint/64136
PURE UUID: 2a2eccfc-1961-4961-95d8-27905c5f924c
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Date deposited: 05 Jan 2009
Last modified: 16 Mar 2024 03:03
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Contributors
Author:
N.D. Sandham
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