In this paper the quantitative risk analysis procedure has been used to face two specific aspects of the fire safety design in road and rail tunnel: • the smoke control system effectiveness; • the spalling effect and structural reliability of the liners. The first example deals with the risk comparative assessment of two alternative systems for smoke control in a road tunnel. The societal risk indicator has been used to select the more effective system. The second one aims to consider a reliability based approach for structural design of the tunnel liners in order to identify the design fire load preventing from the spalling effect at a given probability level. © 2009 WIT Press.
Risk analysis and reliability based design in tunnel fire safety / Guarascio, Massimo; Lombardi, Mara; Rossi, Giuliano; Sciarra, Giulio. - 108:(2009), pp. 575-584. (Intervento presentato al convegno 3rd International Conference on Safety and Security Engineering, SAFE 2009 tenutosi a Rome nel 1 July 2009 through 3 July 2009) [10.2495/safe090531].
Risk analysis and reliability based design in tunnel fire safety
GUARASCIO, Massimo;LOMBARDI, MARA;Rossi, Giuliano;SCIARRA, Giulio
2009
Abstract
In this paper the quantitative risk analysis procedure has been used to face two specific aspects of the fire safety design in road and rail tunnel: • the smoke control system effectiveness; • the spalling effect and structural reliability of the liners. The first example deals with the risk comparative assessment of two alternative systems for smoke control in a road tunnel. The societal risk indicator has been used to select the more effective system. The second one aims to consider a reliability based approach for structural design of the tunnel liners in order to identify the design fire load preventing from the spalling effect at a given probability level. © 2009 WIT Press.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.