Abstract
The methodology of quantitative risk assessment in use in the railway industry refers the RAMS approach, as expected in EN 50126, to define the failure of the system. From the probability of failure follows the evaluation of the failure consequence, the check of the accident occurrence and finally, the analysis of the achievable accident scenarios to quantify the damage as result thereof. In this approach, the central concept is the failure phenomenon, i.e., the deviation of the proper performance of a function by a system component. The case-study is referred to the maintenance procedure, necessary to ensure safe use of the railway infrastructure. The homogeneous treatment of human behaviour in the proposed risk model involves the definition of the function of reliability (or failure) of "human component" since the maintenance procedure of railway system shows a high probability of human error. The paper analyzes a series of control checks for back analysis testing of accident occurrences and highlights the opportunity to perform quantitative risk analysis comparing alternative designs of railway system by analogical analysis methods. In this analysis the evaluation of human error according to combined techniques of risk analysis and Ishikawa’s theory is relevant because in the railway industry organized procedures of good practice usually have been employed.
Highlights
It may involve the interruption of the movement on the rail track affected by the work, the Functional reliability or safety, in case of failure, are fundamental performance requirements of neighbouring rail track is operating
The homogeneous treatment of human behaviour in the proposed risk model involves the definition of the function of reliability of “human component” since the maintenance procedure of railway system shows a high probability of human error
The variables for the Event Tree Analysis are: V1: Protection System; V2: Safety distance from the adjacent rail track; V3: Working procedure according to briefing; V4: Compliance to technical rules; V5: Empty rail track according to procedure; V6: Train in transit; V7: Collision accident
Summary
It may involve the interruption of the movement on the rail track affected by the work, the Functional reliability or safety, in case of failure, are fundamental performance requirements of neighbouring rail track is operating. The reliability and safety analysis are aimed, respectively, to provide methods for work clearly define the safety requirements, taken to prevent an interference between the event “transit of assessing whether a component or a system will be the train” and “occupation of the rail track by the operative for duration (or occasion) in which the user operator”, which would result in the accident. The interference of events can be due to several factors: usability and safety of the railway infrastructure, shows particular risk factors.
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