A full-scale experimental and modelling study of ballast flight under high speed trains
A full-scale experimental and modelling study of ballast flight under high speed trains
Recent experience with the operation of high-speed railways in the UK and elsewhere has revealed the phenomenon, termed ‘ballast flight’, of ballast particles becoming airborne during the passage of trains, potentially causing damage to both the railhead and the vehicle. This article reports the results of an investigation into the mechanical and aerodynamic forces acting on ballast particles that are generated during the passage of a high-speed train and addresses the question whether these might offer a possible explanation for the initiation of ballast flight. As the high-speed trains passed, measurements were made of the air pressure and velocity at various locations across the track, and of the velocity and acceleration of the track system (sleeper and rails) and the ballast itself. The aerodynamic forces exerted on a suspended ballast particle were also measured. An analytical model of the behaviour of small ballast particles was constructed to assist in the interpretation of the measured data. Analysis of the data and modelling suggest that neither mechanical forces nor aerodynamic forces in isolation are likely to be sufficient to initiate ballast flight under the conditions investigated, but that the phenomenon could arise from a combination of the two effects. It appears that the process is stochastic in nature: further work, with an increased number of measurements, is required to explore this.
high-speed railways, transport, aerodynamics, pressure, vibration
61-74
Quinn, A.D.
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Hayward, M.
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Baker, C.J.
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Schmid, F.
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Priest, J.A.
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Powrie, W.
600c3f02-00f8-4486-ae4b-b4fc8ec77c3c
Quinn, A.D.
622801ec-7e5f-4f99-8a3c-96b67a555cca
Hayward, M.
d2a0646b-5038-46cb-8281-96b3b3dd67fe
Baker, C.J.
9273178e-3ff8-4c18-9428-96d3e46789c4
Schmid, F.
2089d2ee-57b3-4221-8e4e-2642861285bc
Priest, J.A.
2c22f55d-ea01-4485-9a16-d5c79f79a972
Powrie, W.
600c3f02-00f8-4486-ae4b-b4fc8ec77c3c
Quinn, A.D., Hayward, M., Baker, C.J., Schmid, F., Priest, J.A. and Powrie, W.
(2009)
A full-scale experimental and modelling study of ballast flight under high speed trains.
Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, .
(doi:10.1243/09544097JRRT294).
Abstract
Recent experience with the operation of high-speed railways in the UK and elsewhere has revealed the phenomenon, termed ‘ballast flight’, of ballast particles becoming airborne during the passage of trains, potentially causing damage to both the railhead and the vehicle. This article reports the results of an investigation into the mechanical and aerodynamic forces acting on ballast particles that are generated during the passage of a high-speed train and addresses the question whether these might offer a possible explanation for the initiation of ballast flight. As the high-speed trains passed, measurements were made of the air pressure and velocity at various locations across the track, and of the velocity and acceleration of the track system (sleeper and rails) and the ballast itself. The aerodynamic forces exerted on a suspended ballast particle were also measured. An analytical model of the behaviour of small ballast particles was constructed to assist in the interpretation of the measured data. Analysis of the data and modelling suggest that neither mechanical forces nor aerodynamic forces in isolation are likely to be sufficient to initiate ballast flight under the conditions investigated, but that the phenomenon could arise from a combination of the two effects. It appears that the process is stochastic in nature: further work, with an increased number of measurements, is required to explore this.
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e-pub ahead of print date: 26 October 2009
Keywords:
high-speed railways, transport, aerodynamics, pressure, vibration
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Local EPrints ID: 74613
URI: http://eprints.soton.ac.uk/id/eprint/74613
ISSN: 0954-4097
PURE UUID: d686fac3-4c75-49bd-a679-6367b494dc1c
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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 02:37
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Contributors
Author:
A.D. Quinn
Author:
M. Hayward
Author:
C.J. Baker
Author:
F. Schmid
Author:
J.A. Priest
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