An investigation into the characteristics of a novel rotatable pantograph catenary system for high-speed trains
An investigation into the characteristics of a novel rotatable pantograph catenary system for high-speed trains
High speed trains receive traction electrical energy from a high-voltage catenary via a pantograph catenary system (PCS). As the velocity of trains increases, the traditional PCSs face significant challenges, such as strong aero resistance under high-speed conditions, severe electrochemical corrosion caused by poor contact between the pantograph strip and the catenary, harmful wear both on the pantograph strip and the contact wire produced by high-speed sliding friction between them, etc. The effectiveness and reliability of the PCS has a direct impact on the performance and safety of the HTS power supply. In order to alleviate some of these bottleneck effects related to the operation of the currently used PCSs, especially under high-speed conditions, this paper proposes a novel configuration where rotatable pantograph rollers replace the currently used pantograph strips. As the sliding friction is now replaced by rotating friction, this has numerous benefits, such as less friction heat, better heat dispersion and improved catenary-tracking performance. Moreover, should the whole system be modularized, it could adapt to different levels of traction power through adjusting the number of rollers.
High-speed train, Pantograph catenary system, Pantograph strip, Pantograph roller, Rotating friction, Electrochemical corrosion, Magnetic modelling
1721-1730
Xiao, Song
6ffa9657-513e-4b86-86a2-e560d3c09c72
Luo, Yuanpei
8bf37e8e-3ee3-4337-97df-9350b1791505
Wu, Jingchi
b3bb15fe-d2ab-4c82-9f97-1d5fbc150e1e
Zhang, Can
d248e399-21ab-4bfb-bc48-3373f0775d15
Rao, Yang
0dd9723b-9182-4896-acf2-6eb1b197e51e
Wu, Guangning
bfc77dce-7b97-40eb-863a-b4041cd3ebcf
Deng, Zhida
e059baea-8a79-4e08-ad14-fa30d4feba68
Sykulski, Jan K.
d6885caf-aaed-4d12-9ef3-46c4c3bbd7fb
1 May 2021
Xiao, Song
6ffa9657-513e-4b86-86a2-e560d3c09c72
Luo, Yuanpei
8bf37e8e-3ee3-4337-97df-9350b1791505
Wu, Jingchi
b3bb15fe-d2ab-4c82-9f97-1d5fbc150e1e
Zhang, Can
d248e399-21ab-4bfb-bc48-3373f0775d15
Rao, Yang
0dd9723b-9182-4896-acf2-6eb1b197e51e
Wu, Guangning
bfc77dce-7b97-40eb-863a-b4041cd3ebcf
Deng, Zhida
e059baea-8a79-4e08-ad14-fa30d4feba68
Sykulski, Jan K.
d6885caf-aaed-4d12-9ef3-46c4c3bbd7fb
Xiao, Song, Luo, Yuanpei, Wu, Jingchi, Zhang, Can, Rao, Yang, Wu, Guangning, Deng, Zhida and Sykulski, Jan K.
(2021)
An investigation into the characteristics of a novel rotatable pantograph catenary system for high-speed trains.
Journal of Electrical Engineering & Technology, 16 (3), .
(doi:10.1007/s42835-021-00664-1).
Abstract
High speed trains receive traction electrical energy from a high-voltage catenary via a pantograph catenary system (PCS). As the velocity of trains increases, the traditional PCSs face significant challenges, such as strong aero resistance under high-speed conditions, severe electrochemical corrosion caused by poor contact between the pantograph strip and the catenary, harmful wear both on the pantograph strip and the contact wire produced by high-speed sliding friction between them, etc. The effectiveness and reliability of the PCS has a direct impact on the performance and safety of the HTS power supply. In order to alleviate some of these bottleneck effects related to the operation of the currently used PCSs, especially under high-speed conditions, this paper proposes a novel configuration where rotatable pantograph rollers replace the currently used pantograph strips. As the sliding friction is now replaced by rotating friction, this has numerous benefits, such as less friction heat, better heat dispersion and improved catenary-tracking performance. Moreover, should the whole system be modularized, it could adapt to different levels of traction power through adjusting the number of rollers.
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More information
e-pub ahead of print date: 3 March 2021
Published date: 1 May 2021
Keywords:
High-speed train, Pantograph catenary system, Pantograph strip, Pantograph roller, Rotating friction, Electrochemical corrosion, Magnetic modelling
Identifiers
Local EPrints ID: 477691
URI: http://eprints.soton.ac.uk/id/eprint/477691
ISSN: 1975-0102
PURE UUID: 8a1582cf-cb0d-4dc5-9ab8-182c7d21780f
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Date deposited: 13 Jun 2023 16:55
Last modified: 17 Mar 2024 02:33
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Contributors
Author:
Song Xiao
Author:
Yuanpei Luo
Author:
Jingchi Wu
Author:
Can Zhang
Author:
Yang Rao
Author:
Guangning Wu
Author:
Zhida Deng
Author:
Jan K. Sykulski
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