Nottingham, 30-7-2015 — /EuropaWire/ — Practical measures to help prevent landslips and enhance track stability are among rail improvements pinpointed by engineering research involving The University of Nottingham.
The potential upgrades would mean rail passengers face fewer speed restrictions, delays and cancellations – and help the UK rail industry achieve multi-million-pound savings.
A range of suggested improvements to how railway track is designed, built and maintained has been highlighted by ‘Railway Track for the 21st Century’, a £3.1m, five-year research programme funded by the Engineering and Physical Sciences Research Council (EPSRC).
It has been undertaken by a consortium led by the University of Southampton and involving The University of Nottingham and The University of Birmingham, as well as a range of industry partners, who have provided additional financial support.
Using innovative computer models and on-train and track-side measurement techniques to reveal in unprecedented detail the forces and pressures that railway track is subjected to, key outcomes and findings include the following:
– Savings of £500,000 a year have already been realised through more effective management of lineside vegetation. Seasonal track movement on clay embankments can be addressed by using vegetation to manage water content and hence reduce shrink-swell problems in the clay, as well as improving track stability during wet periods.
– Better risk assessment of earthworks has led to improved adverse weather management, delivering an estimated 14 per cent reduction in the risk of trains running into landslides during high-rainfall periods.
– The risk of landslips can be further reduced by piles driven into the earth to stabilise slopes forming part of cuttings and embankments. Annual savings estimated at between £13m and £20m are expected from improved design arising from the research, as well as big reductions in the time taken for the works.
– Maintenance requirements can also be reduced by including a wider range of grain size in the ballast supporting the track, by inserting flexible pads under sleepers, or by reducing the ballast shoulder slope, all of which can reduce the stresses that the track system experiences.
“Trains have changed hugely over the last few decades, but the track and earthworks they run on are substantially the same as a century ago”, says Professor William Powrie of Southampton University, who has led the research.
“Increases in the speed and weight of trains are putting our rail infrastructure under growing pressure, while increases in service frequency are reducing maintenance windows. The changes we’ve explored offer ways to help maintain and upgrade the infrastructure for the 21st century.”
One slope stabilisation project in London has saved £1.5m in costs and achieved a four month shortening in timescale through utilising procedures devised by the research programme.
Kedar Pandya, Head of Engineering at EPSRC, said: “This is an excellent example of how research aligned to government transport policy produces significant benefits, in this case for the railways and passengers.”
Now several of the most promising ideas generated by the programme are being taken further forward by the £8.2m, five year follow-on initiative ‘Track to the Future’ primarily funded by EPSRC and being undertaken by the same consortium, which Huddersfield University has now also joined.
“Our work has shed more light on the many complex factors and mechanisms that determine how railway track behaves,” Professor Powrie says. “Our conclusions are equally applicable to the UK’s existing rail network and to the high-speed railways of tomorrow.”
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Professor Glenn McDowell DSc, Faculty of Engineering, University of Nottingham. Email: firstname.lastname@example.org PA: Laura Conkey: Tel: 0115 9514090
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