Abstract
The construction of railway turnout entails a complex geometry and multi-disciplinary engineering science, which makes it one of the most critical railway infrastructures. As such, these characteristics pose various risks in rail operation. A considerable number of derailment incidents at the turnouts are reported annually worldwide. Not only do these incidents cause operational downtime and financial loss, they also give rise to casualties and sometimes loss of life. One of the fundamental reasons for this may well be the fact that the railway industry pays little attention to the risk elements of railway turnouts. The paper provides an integrated approach of how to deal with the many different risks arising from various sources in railway turnout systems by suitably identifying the multi-disciplinary risk analysis methods for the complex systems. In order to do so, available open literatures are critically analysed by virtue of comparison, industry experiences and deductions. As a result, various qualitative- and quantitative-based risk analysis methods are proposed to fully understand a number of technical phenomena, e.g. ageing, degradation and signalling faults, in a railway turnout system.
Acknowledgements
In addition, the financial sponsorship from European Commission is gratefully acknowledged, for supporting the H2020-RISE Project No. 691135 ‘RISEN: Rail Infrastructure Systems Engineering Network,’ which enables a global research network that tackles the grand challenge in railway infrastructure resilience and advanced sensing.
Notes
1. Risk tolerance is still a developing area of research in the railway industry. For instance, rails and axles are crucial components, since any failure may result in a catastrophic derailment. However, in some cases, it can be decided that a risk falls into the unacceptable region, taking into account cost–benefit analysis.