Risk of Covid-19 transmission in rail

Posted on: 13/10/2021
Modern Fast Passenger Train in the Station with Motion Blur

The rail industry has been working hard to increase safety precautions and restore passenger confidence in public transport. KTN has advised rail operators on how transmission risk might be managed and understood in a carriage, in a station and throughout the national rail network.

KTN and its partners in the Virtual Forum for Knowledge Exchange in the Mathematical Sciences (V-KEMS) provided insight to rail operators on how transmission risk might be managed and understood in a carriage, in a station and on the rail network nationally.

Passenger use of the UK’s rail network fell as low as 4% in late April 2020 (as compared with an equivalent day in 2019). To restore public confidence, it is vital to develop methods that can quantify the risk of transmission on a train in numerous operating circumstances. KTN and its partners in the Virtual Forum for Knowledge Exchange in the Mathematical Sciences (V-KEMS) provided insight to rail operators on how transmission risk might be managed and understood in a carriage, in a station, and on the rail network nationally.

""Passenger use of the UK’s rail network fell as low as 4% in late April 2020 (as compared with an equivalent day in 2019). The rail industry has been working hard to put plans into place to attract passengers back to rail following the end of lockdown periods; to instill confidence in the public, it is vital to develop methods that can quantify the risk of transmission on a train in numerous operating circumstances. The industry looks to develop long-term resilience as we transition towards Great British Railways, and it is crucial that we focus on innovation and collaboration which benefits and safeguards the rail industry and staff roles, meets passenger needs, re-engages customers (and new markets) as well as boosting economic recovery through infrastructure development and beyond. To meet the UK’s net-zero targets and mitigate the impacts of climate change, re-engaging with passengers is vital, as is ensuring all members of the UK’s communities can access rail.""

Daisy Chapman-Chamberlain, Rail KTM, KTN

The mathematical sciences can provide the tools for understanding ‘what if’ scenarios for challenges such as disease transmission. They are particularly useful for tackling problems that cover many scales; from carriage disease dynamics to network level implications. In January 2021, Virtual Forum for Knowledge Exchange in the Mathematical Sciences (V-KEMS) which includes KTN, the Isaac Newton Institute, the International Centre for Mathematical Sciences and the Newton Gateway to Mathematics, convened a group of around mathematical scientists, and rail industry experts to discuss and create workable solutions to challenges around:

Modelling Covid-19 transmission risk in a carriage

  • What can we learn from different levels of modelling complexity when considering the airflow in a carriage?
  • What is the value of low-fidelity models?

Modelling Covid-19 transmission risk at station ‘choke points’ on a journey

  • Can we model how different loading strategies affect the risk of transmission when crowding occurs at train doors when boarding?
  • How might we estimate the viral load associated with queuing as passengers alight from a carriage?

Are there network-level decisions that could be modeled?

  • How might network models be used to investigate where additional trains might be required to deal with unusual demand?
Figure 1. High level description of airflows in a carriage. Air is inhaled and exhaled by susceptible and infected passengers, and circulated by the HVAC unit. Air from outside is exchanged with air from the carriage when doors are opened and is also exchanged with the HVAC unit. The arrows and Qa(xy) describe the flow of air from x to y.
Figure 1. High level description of airflows in a carriage. Air is inhaled and exhaled by susceptible and infected passengers, and circulated by the HVAC unit. Air from outside is exchanged with air from the carriage when doors are opened and is also exchanged with the HVAC unit. The arrows and Qa(xy) describe the flow of air from x to y.

"“Considering the part of the challenge which considers the movement of air - and therefore potential virus - computational fluid dynamics (CFD) is used. To represent the fluid dynamics in a real carriage, one must take into account ventilation systems, passenger breathing and the huge variety of different carriage configurations and geometries. This is a computationally difficult task. Whilst highly accurate CFD modelling can be carried out, these simulations can take a significant time to run so there is potentially scope for lower fidelity models based on simplified models of airflow to allow a wider range of carriage geometries to be investigated in a reasonable time.”"

Professor William Lee, University of Huddersfield & Virtual workshop study group leader for this research

Outcomes

Following the Virtual Study Group, the University of Bath was successful in obtaining follow-up funding from the International Centre for Mathematical Sciences for ‘Knowledge Exchange Post Event Delivery Support’. This further developed the work undertaken with industry partners, specifically looking at how to model the questions of loading and alighting transmission risk on trains. PhD student Oluwatosin Babasola presented some of this work at the prestigious Heidelberg Laureate Forum on the 20th of September 2021.

 

A PDF of the VKEMS train poster used in the presentation can be could found by clicking here.

V-KEMS will be running more sessions to support business recovery from the effects of the pandemic. If you are interested in the insights generated through this work or would be interested in participating in a future session (either as a problem owner or a solution provider), please do get in touch and contact Matt Butchers who is the Industrial Mathematics KTM and Daisy Chapman-Chamberlain who is the Rail KTM. Also, please explore the research and development that the KTN Industrial Mathematics team and KTN Rail team have completed.

Click here to learn more about V-KEMS, follow V-KEMS on Twitter and please contact our Industrial Mathematics expert, Matt Butchers to discuss working together to apply advanced mathematics and solve complex systems within your organisation.

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