The hottest July day on the railway network; insights and thoughts for the future
Research output: Contribution to journal › Article
Colleges, School and Institutes
The 1 July 2015 was the hottest July day on record (37.5 °C recorded at Heathrow Airport) in the United Kingdom (UK), and record-breaking temperatures were recorded across England. This short-duration heatwave (30 June–1 July 2015) affected railway services both directly, by causing asset failure or malfunction, and indirectly, by necessitating the use of emergency speed restrictions (ESRs) to reduce the likelihood of track buckling. Incidents caused by heat and lightning were recorded across the British railway network, and knock-on delays affected rail travel in regions where extreme weather did not have a direct impact. In total, 23 700 delay-minutes were attributed to ESRs, 12 800 to heat and 4000 to lightning incidents. Attributing specific incidents to extreme weather is problematic, and it is likely that the actual number of incidents caused by the extreme weather between 30 June and 1 July was far greater. Indeed, there were nearly 220 000 delay-minutes between 30 June and 1 July; all regions experienced more than twice the daily average delay-minutes on one or both days, costing an estimated £16 million to the national economy. Incidents on critical routes (e.g. London North Eastern connecting London and Scotland) or close to critical transport nodes, such as Manchester Piccadilly, caused the longest delays. Under future warmer climatic conditions, heatwaves and extreme temperatures are projected to occur more frequently and the railway operator has several measures to adapt or update existing infrastructure in order to reduce the impact of heat and lightning. Alternative solutions such as low-cost sensors for real-time condition monitoring or green infrastructure for increased asset resilience should also be considered.
|Early online date||26 Sep 2017|
|Publication status||E-pub ahead of print - 26 Sep 2017|
- infrastructure networks, railways, resilience, extreme heat