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Details of Grant 

EPSRC Reference: EP/M025276/1
Title: The science and analytical tools to design long life, low noise railway track systems
Principal Investigator: Powrie, Professor W
Other Investigators:
Preston, Professor JM McDowell, Professor G Blainey, Dr SP
Iwnicki, Professor S Roberts, Professor C Zervos, Dr A
Thompson, Professor DJ
Researcher Co-Investigators:
Professor Y Bezin Dr L Le Pen
Project Partners:
FutureRailway High Speed Two HS2 Limited London Underground Ltd
Network Rail Pandrol Rail Fastenings Ltd Progress Rail Services (UK)
Rail Safety & Standards Board Railway Industry Association Tata Steel Limited
URS Infrastructure & Environment UK Ltd
Department: Faculty of Engineering & the Environment
Organisation: University of Southampton
Scheme: Programme Grants
Starts: 01 June 2015 Ends: 31 May 2021 Value (£): 5,193,338
EPSRC Research Topic Classifications:
Ground Engineering Transport Ops & Management
EPSRC Industrial Sector Classifications:
Transport Systems and Vehicles
Related Grants:
Panel History:
Panel DatePanel NameOutcome
26 Feb 2015 Programme Grant Interviews (Engineering) 26 February 2015 Announced
Summary on Grant Application Form
Electrified railways are the only form of powered transport realistically offering zero CO2 emissions at point of use. A reduction in CO2 emissions from transport will require a massive shift from road to rail, itself a challenge as even a 10% shift in the UK would double rail traffic. This is on top of a doubling in rail travel and increased intensity of use of the network since 1994, exposing the limitations of traditional track forms as real time maintenance needs increased and the time available for maintenance reduced. The rail industry is also under pressure to reduce costs and environmental impacts including noise and vibration, often a major cause of objections to proposed new and upgraded lines.

The contribution of rail transport to social wellbeing, regeneration and growth is well established; and rail is now seen as the key to unlocking prosperity, improving east-west connectivity in the UK and reducing the north-south economic divide. Planned UK and international rail investment is unprecedented in a century, but increased demands and expectations have revealed gaps in the knowledge needed for effective, rational investment. Scope for cost savings and improved environmental performance through better track system design and longevity is substantial: Network Rail currently spends £3.5bn p.a. on infrastructure maintenance and renewal, and will invest £38bn in 2014-9.

TRACK to the FUTURE (T2F) will discover the scientific knowledge and develop the analytical tools to design long-life, low-noise railway track systems that are economical to install, require minimal maintenance, and optimize environmental performance. It will deliver step-change improvements in three key areas:

1.Track life: track maintenance is costly in cash and carbon terms, and interferes with operations. T2F will explore new, low-maintenance track forms. It will develop an understanding of the relationships between track stiffness and settlement, which can be measured, and differential movement of the track, which causes performance to deteriorate. It will extend ballast life by understanding and eliminating or mitigating causes of deterioration and developing designs that will continue to perform well long after deterioration has set in; and will facilitate ballast re-use rather than downcycling or disposal.

2.Switches (points) and transitions: where trains change direction and cross tracks or other infrastructure there is a complex interaction of geometry, support, wheel profile and vehicle dynamics. This is not sufficiently understood and frequent costly and disruptive maintenance is required. T2F will draw together the key areas of ground support, switch or transition zone geometry, and vehicle dynamics for the reliable assessment of crossing and transition zone behaviour, life and maintenance needs.

3.Noise and vibration: public tolerance of vibration and noise from railways is decreasing as use intensifies, yet these are traditionally regarded as secondary in design. T2F will develop and demonstrate, through modelling and full-scale testing, a low-noise, low-vibration track consistent with reduced whole life costs and low maintenance.

In every aspect, T2F will address the effects of millions of cycles of complex loads to which track systems are subjected in a modern environment, taking into account the combined effects of noise, vibration, vehicle dynamics and ground behaviour, non-uniformities of loading and non-linearities in response. The research will lead to the development of integrated tools, based on sound fundamental principles and reliable observations of behaviour, for assessing performance of track systems including transitions and crossings, noise and vibration. These will be incorporated into existing industry analytical models to improve the performance and reduce maintenance needs of railway track systems, in support of the DfT Rail Technical Strategy 2040 vision of infrastructure fit for the 21st century.
Key Findings
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Potential use in non-academic contexts
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Further Information:  
Organisation Website: http://www.soton.ac.uk