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Research by the University of Sheffield, Furrer+Frey and Network Rail is helping to embed cost efficient electrification in the UK’s rail network. After four years, two PhDs have been completed both focusing on different areas of cost efficient electrification and improved reliability.
New electrification is seen as an essential step to decarbonise rail as part of the UK government’s Net Zero 2050 decarbonisation targets. Sheffield engineers with the support of Furrer+Frey and Network Rail have conducted extensive research that will improve the reliability of both current and future electrification schemes.
The University of Sheffield, Furrer+Frey and Network Rail are all members of the UK Rail Research and Innovation Network (UKRRIN). The research demonstrates that collaboration between universities and industry can play a vital role in bringing innovation to Britain’s railway. Ultimately the work shows how engineering research can help underpin electrification of the UK’s rail network, improving reliability for passengers and driving innovation in the industry.
The PhDs, undertaken by Sam Hayes and Özgün Sunar from the University’s Department of Mechanical Engineering, were both supported by Furrer+Frey and Network Rail to focus on cost efficient electrification of UK’s rail network. The PhDs were jointly funded by the University of Sheffield, Furrer+Frey and European Union funding, as part of programmes to improve research with industry in the railway.
Professor David Fletcher, head of the research group at Sheffield, said: “The engagement with Furrer+Frey has been really great in funding and steering these research projects. Their expertise has ensured the research stayed focused on industry needs, ensuring impact from the academic input of our PhD students.”
The first PhD undertaken by Sam Hayes, with support of Prof. David Fletcher, as well as, Katherine Chan of Furrer+Frey, examined the effect of wind, train speed and gradient with the aim to avoid bridge reconstruction on future new electrification projects.
Performance of the wires was recorded using both large scale wind tunnels and computational fluid dynamics to create a digital twin of wiring geometry. The digital twin was then validated with real-world testing at Network Rail’s test track Melton Rail Innovation & Development Centre. The PhD looked at the maintenance impact of steeper gradients, in order to determine ultimately if fewer bridge reconstructions are required. The work is part of a package of works the industry is undertaking to reduce the need for bridge reconstruction on future electrification schemes. Bridge reconstruction has been a key driver in increasing electrification costs, and reducing the need for these reconstructions is key to reducing costs as highlighted in the Rail Industry Association’s Electrification Cost Challenge. These are part of a number of industry projects designed to reduce the need for reconstructions, this PhD will further reduce the need for these reconstructions.
Engineering Director at Furrer+Frey, Rob Daffern said: “I studied at The University of Sheffield, so to be working with cutting edge research back at Sheffield has been tremendous. The whole industry is focused on reducing costs and research is key.”
The second PhD was undertaken by Özgün Sunar, with support of Prof. David Fletcher, as well as, industrial supervision by Chris Bryan of HS2. The focus of this PhD was to improve the reliability of overhead line electrification equipment, when short-circuits and arching occurs. The research used both modelling and mechanical/electrical testing to establish intervention points and understand when maintenance is needed prior to service interrupting failures. The research also trialled innovative new conductor materials. The ultimate aim is to improve the performance of electrification and enhance passenger journeys, by preventing failures.
Director of Furrer+Frey, Noel Dolphin said: “We’re proud to be supporting decarbonisation through electrification. Research and study are ones of the keys to making electrification cost efficient. However, as the Railway Industry Association’s Electrification Cost Challenge Report has shown we need to remember that implementing a rolling programme of electrification would have the biggest impact on costs. By reducing costs and improving reliability, we make this business case stronger.”
Dr Patric Mak, Senior Engineer for Network Rail’s Technical Authority, said: “It’s really important for Network Rail and the wider rail industry to continue to look for ways to bring innovation to Britain’s railways and at how we can address new challenges, such as more extreme weather.
“On behalf of Network Rail, I’ve been delighted to support both of these PhD students with their research, which will help us to create a more modern and resilient railway meaning fewer delays for both passenger and freight service.”
Demonstrating cost efficient electrification has been a key component of moving away from boom-and-bust infrastructure building. The railway industry has called for a rolling programme of electrification.
Electrification is the most efficient method of traction power for railways, specifically electrified railways:
Joint academic research in collaboration with industry could be key in delivering future cost efficient electrification and a reliable railway.
Photo credit: Furrer+Frey
This article first appeared on www.railbusinessdaily.com
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