Abstract
The geometry of railway track must be maintained within certain standards in order to provide a highly available network, as well as good ride comfort and safety for all rail users. Modelling is well utilised as part of asset management tools in exploring the effectiveness of different rail geometry maintenance strategies. By considering the rail route as an entire system – in contrast to a track section in isolation – a more effective maintenance strategy can be developed, including the deployment of opportunistic maintenance practice. This study presents a Coloured Petri Net model of railway track degradation, inspection, and maintenance planning and delivery, for an entire route of track sections. Opportunistic maintenance is introduced through a novel search transition function, which groups interventions based on local adjacency. Testing explores the availability and maintenance demands expected when following a series of different management strategies. This is extended to testing under heatwave conditions, a known disrupter to track geometry maintenance delivery. Simulation results show that in following an opportunistic strategy, greater availability can be achieved on the modelled rail line. Further, resilience to the heatwave disruptions can be achieved by selecting the correct maintenance strategy parameters. This asset management tool can provide guidance on management strategies for a full route of track sections as a combined system.
Highlights
The UK rail network comprises of more than 20,000 miles of track
This paper contributes a Coloured Petri Net model of railway track geometry degradation and management, with opportunistic maintenance included in the scheduling strategy
The Coloured Petri Net (CPN) presented in this study models the degradation, inspection, and maintenance planning and delivery for a railway route comprising of a series of track sections
Summary
The UK rail network comprises of more than 20,000 miles of track. As utilisation is forecast to continue growing, there is increasing demand for effective delivery of maintenance activities. This paper contributes a Coloured Petri Net model of railway track geometry degradation and management, with opportunistic maintenance included in the scheduling strategy. The Coloured Petri Net model presented is designed to provide a flexible and managed tool for testing different track asset maintenance strategies.
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More From: Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit
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