Dynamic analysis using finite elements to calculate the critical wear section of the contact wire in suburban railway overhead conductor rails

González, Fernández; Chover, J A; Suarez, Berta; Vázquez, M.

doi:10.1243/09544097jrrt144

Cited by 10 publications

(7 citation statements)

References 7 publications

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“…This would indicate that lower loads would be beneficial, however, loss of contact between the pantograph and contact wire can cause an electrical arc, rapidly raising the temperature of the surrounding contact wire (Auditeau et al, 2013). This can cause melting and vaporisation of the contact wire, effectively increasing the wear rate (Gonzalez et al, 2008). The model described here is able to make prediction of contact force to assist in finding a mid-range in which risk is reduced of both excessive sliding wear and loss of contact.…”

Section: Contact Wire Wearmentioning

confidence: 99%

“…Acceptable results can also be obtained using the modal analysis method, where the contact and catenary wires are decomposed into the sum of infinite derivable sinusoidal functions (Kia et al, 2010). Gonzalez et al (2008) used a computational modelling approach in their study on the wear rates of contact wires on the Metro de Madrid. A mass-spring-damper pantograph model featuring two lumped masses was passed under a catenary system with the wires represented by Euler-Bernoulli beams.…”

Section: Modelling Approachesmentioning

confidence: 99%

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Validation of a new model for railway overhead line dynamics

Beagles

Fletcher

Peffers

et al. 2016

Proceedings of the Institution of Civil Engineers - Transport

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This paper presents details of a new model of railway overhead electric power line dynamics for prediction of contact wire-pantograph contact forces and wire uplift. It is validated against data from EN50318:2002, and against data from track tests conducted at Network RailÕs Melton Rail Innovation and Development Centre using a class 395 high speed electric multiple unit. Its advantage over previous approaches is its implantation in a commercial nonlinear finite element package allowing application for a wide range of overhead line geometry.Overhead electric lines and their support structures are highly stressed components largely without redundancy, and their integrity (both mechanical and electrical) is crucial to the functioning of railway infrastructure. Their failure can be understood in terms of component wear, fatigue and corrosion, in addition to electrical equipment life expiry. These processes are driven by a combination of factors including cable tension, dynamic load from current collection pantographs, the frequency of support, and environmental loading (e.g. sparking and sidewinds). The model described here is able to support decision making and cost effectiveness regarding these aspects for new installations (e.g. designing for compliance with EN50119:2009) and for maintenance of existing systems. The route for further extending its capabilities is outlined.

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Section: Contact Wire Wearmentioning

confidence: 99%

Section: Modelling Approachesmentioning

confidence: 99%

Validation of a new model for railway overhead line dynamics

Beagles

Fletcher

Peffers

et al. 2016

Proceedings of the Institution of Civil Engineers - Transport

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“…The term q L in (1) requires further consideration. Normally, current flows through the sliding connection between the pantograph and catenary [20]. The corresponding thermal problem mainly focuses on local temperature increases.…”

Section: De‐icing Scheme For a Direct Feeding Systemmentioning

confidence: 99%

Online catenary anti‐icing technique for electric railways employing direct feeding systems

Guo

Zhou

Chen

et al. 2016

IET Generation, Transmission & Distribution

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“…More comprehensively the contributions of both mechanical and electrical wear are described by the model of Bucca and Collina [8]. Damage caused by melting and vaporisation of the contact wire [9] and pantograph due to thermal effects, promotes additional wear [10] further limiting the service life.…”

Section: Introductionmentioning

confidence: 99%

Effect of contact wire gradient on the dynamic performance of the catenary pantograph system

Hayes

Fletcher

Beagles

et al. 2020

Vehicle System Dynamics

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This paper considers the interaction between a train mounted pantograph and a railway overhead line, presenting results that could be used to reduce the cost of installing overhead electrification, for example, by reducing the need for expensive bridge reconstruction. Ideally, overhead wires would run at a constant height parallel to the track, however, gradients are often unavoidable due to clearance limitations requiring lower wire heights at bridges and tunnels, and higher heights above level crossings. In this study, the influence of a range of contact wire gradients on the contact force between the overhead line and pantograph has been studied using a validated finite element model. Introducing a windowing technique to identify discrete dynamic behaviours found that overhead wire gradients can be increased with minimal effect on the contact force, showing current wire gradient limits are conservative. This may open up opportunities for electrification, less disruptive than following current standards.

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Dynamic analysis using finite elements to calculate the critical wear section of the contact wire in suburban railway overhead conductor rails

Cited by 10 publications

References 7 publications

Validation of a new model for railway overhead line dynamics

Validation of a new model for railway overhead line dynamics

Online catenary anti‐icing technique for electric railways employing direct feeding systems

Effect of contact wire gradient on the dynamic performance of the catenary pantograph system

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