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Railway air brake model and parallel computing scheme

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Version 2 2023-08-07, 04:33
Version 1 2021-01-14, 13:37
journal contribution
posted on 2023-08-07, 04:33 authored by Qing WuQing Wu, Colin ColeColin Cole, Maksym SpiryaginMaksym Spiryagin, Yucang Wang, W Ma, C Wei
© 2017 by ASME. This paper developed a detailed fluid dynamics model and a parallel computing scheme for air brake systems on long freight trains. The model consists of subsystem models for pipes, locomotive brake valves, and wagon brake valves. A new efficient hose connection boundary condition that considers pressure loss across the connection was developed. Simulations with 150 sets of wagon brake systems were conducted and validated against experimental data; the simulated results and measured results reached an agreement with the maximum difference of 15%; all important air brake system features were well simulated. Computing time was compared for simulations with and without parallel computing. The computing time for the conventional sequential computing scheme was about 6.7 times slower than real-time. Parallel computing using four computing cores decreased the computing time by 70%. Real-time simulations were achieved by parallel computing using eight computer cores.

Funding

Category 3 - Industry and Other Research Income

History

Volume

12

Issue

5

Start Page

1

End Page

11

Number of Pages

11

eISSN

1555-1423

ISSN

1555-1415

Publisher

American Society of Mechanical Engineers

Additional Rights

Public access. Open Access only applies to papers published as part of the ASME Journal Program. The papers publish with an ASME © and a CC-BY reuse license.

Peer Reviewed

  • Yes

Open Access

  • Yes

External Author Affiliations

Southwest Jiaotong University, China; University of Waterloo, Canada

Author Research Institute

  • Centre for Railway Engineering

Era Eligible

  • Yes

Journal

Journal of Computational and Nonlinear Dynamics