Overhead contact wires on electrified railways often have to deviate from their standard height to pass over road crossings or under overbridges. Long height transitions are usually needed to ensure safe and reliable operation, otherwise line speeds need to be restricted. This paper sets out how data analysis combined with advanced simulation of the dynamic interaction between pantograph and overhead contact line proved that a location on the Great Western railway electrification programme in the UK could operate at much higher line speeds despite having a very steep wire gradient. The modelled results for Steventon in Oxfordshire showed a strong correlation with physical testing, enabling line speeds to nearly double. This approach could be used in future electrification projects to achieve significant time and cost savings.
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1 November 2020
Research Article|
July 30 2020
Great Western railway electrification, UK: pantograph interface model boosts speed Available to Purchase
Nikolaos Baimpas, DPHIL, CEng, MIMechE;
Train–Rail Infrastructure Solutions, Derby, UK
(corresponding author)
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Peter Dearman, CEng, FPWI, MIET;
Peter Dearman, CEng, FPWI, MIET
Railway Electrification Consultant
Network Rail, York, UK
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Simon Warren, CEng, IMechE, MPWI;
Simon Warren, CEng, IMechE, MPWI
Senior Engineer TGW
Network Rail, Swindon, UK
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Matthew Leathard, PhD, MEng;
Matthew Leathard, PhD, MEng
Senior Engineer
Atkins, Bristol, UK
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Brad Glass, AMIMechE;
Brad Glass, AMIMechE
Assistant Engineer
Atkins, Derby, UK
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Garry Keenor, CEng, MIET, MPWI
Garry Keenor, CEng, MIET, MPWI
Group Engineer
Atkins, Swindon, UK
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(corresponding author)
Publisher: Emerald Publishing
Received:
December 18 2019
Accepted:
May 20 2020
Online ISSN: 1751-7672
Print ISSN: 0965-089X
ICE Publishing: All rights reserved
2020
Proceedings of the Institution of Civil Engineers - Civil Engineering (2020) 173 (6): 19–27.
Article history
Received:
December 18 2019
Accepted:
May 20 2020
Citation
Baimpas N, Dearman P, Warren S, Leathard M, Glass B, Keenor G (2020), "Great Western railway electrification, UK: pantograph interface model boosts speed". Proceedings of the Institution of Civil Engineers - Civil Engineering, Vol. 173 No. 6 pp. 19–27, doi: https://doi.org/10.1680/jcien.19.00056
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