Flow simulations of a high-speed train for investigating the ballast flight
Flow simulations of a high-speed train for investigating the ballast flight
Related to the train underfloor carbody aerodynamics, a phenomenon of ballast flight occurs frequently associated with the operation of high-speed railways. The flow developed beneath a high-speed train running on a ballasted track and around the ballast particles is turbulent and has strong influence on the ballast flight. This paper investigates the aerodynamic behaviour of the flow passing by a scaled high-speed train with ground underneath using computational fluid dynamics based on the delayed detached-eddy simulation. The numerical simulations are verified against the experimental measurements based on a moving-model facility. Results show that the flow field is highly unsteady due to strong flow separations and interactions developed around the train different areas, such as the nose car, leading bogie, articulated bogie and tail car, etc. It is found that compared to the region below the top of the rail, the flow fluctuations are higher above the rail owing to a highly unsteady flow generated there. Moreover, the strong flow interaction is produced around the articulated bogie due to its special location between the inter-car gaps. The significant pressure pulse produced around the nose, tail and train inter-car gaps will make the ballast flight occur easily. Therefore, reducing the flow interactions around the nose car, tail car, inter-car gaps and other areas with the surface shape discontinuities will lead to less fluctuating forces on the ballast particles, which will reduce the occurring of the ballast flight for high-speed railways.
High-speed train, ballast flight, flow behaviour
3543-3553
Zhu, Jianyue
883f639c-0e41-4a6c-bf4a-93c64faedf5f
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
29 August 2017
Zhu, Jianyue
883f639c-0e41-4a6c-bf4a-93c64faedf5f
Hu, Zhiwei
dd985844-1e6b-44ba-9e1d-fa57c6c88d65
Zhu, Jianyue and Hu, Zhiwei
(2017)
Flow simulations of a high-speed train for investigating the ballast flight.
46th International Congress and Exposition on Noise Control Engineering, , Hong Kong, Hong Kong.
27 - 30 Aug 2017.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Related to the train underfloor carbody aerodynamics, a phenomenon of ballast flight occurs frequently associated with the operation of high-speed railways. The flow developed beneath a high-speed train running on a ballasted track and around the ballast particles is turbulent and has strong influence on the ballast flight. This paper investigates the aerodynamic behaviour of the flow passing by a scaled high-speed train with ground underneath using computational fluid dynamics based on the delayed detached-eddy simulation. The numerical simulations are verified against the experimental measurements based on a moving-model facility. Results show that the flow field is highly unsteady due to strong flow separations and interactions developed around the train different areas, such as the nose car, leading bogie, articulated bogie and tail car, etc. It is found that compared to the region below the top of the rail, the flow fluctuations are higher above the rail owing to a highly unsteady flow generated there. Moreover, the strong flow interaction is produced around the articulated bogie due to its special location between the inter-car gaps. The significant pressure pulse produced around the nose, tail and train inter-car gaps will make the ballast flight occur easily. Therefore, reducing the flow interactions around the nose car, tail car, inter-car gaps and other areas with the surface shape discontinuities will lead to less fluctuating forces on the ballast particles, which will reduce the occurring of the ballast flight for high-speed railways.
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Accepted/In Press date: April 2017
Published date: 29 August 2017
Venue - Dates:
46th International Congress and Exposition on Noise Control Engineering, , Hong Kong, Hong Kong, 2017-08-27 - 2017-08-30
Keywords:
High-speed train, ballast flight, flow behaviour
Identifiers
Local EPrints ID: 419105
URI: http://eprints.soton.ac.uk/id/eprint/419105
PURE UUID: 6af720ac-8fb1-47da-84c9-c066825d7087
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Date deposited: 30 Mar 2018 16:31
Last modified: 15 Mar 2024 16:14
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Author:
Jianyue Zhu
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