A Comparison of a Statistical and Computational Fluid Dynamics Approach to Estimate Heat Release Rate in Road Tunnel Fires

Computational tools such as one-dimensional models or Computational Fluid Dynamics (CFD) have been used for the fire safety design of road tunnels. However, most of these analyses are performed using a specified fire source where the heat release rate (HRR) in the tunnel is fixed by the user and the influences of ventilation conditions and tunnel geometry are not considered. For a more realistic estimate, models need to incorporate these factors in their input. This paper discusses the use of a statistical approach previously developed by other researchers (Carvel and Beard, The handbook of tunnel fire safety. Thomas Telford Publishing, pp 184–197, 2005) and the use of a CFD approach to estimate the HRR in a road tunnel fire. As an application example, fire scenarios in which a light goods vehicle carrying wooden pallets are used to compare the estimation of the HRR using these two methods.

[1]  Michael Spearpoint,et al.  Using the peak heat release rate to determine the fire risk level of road tunnels , 2008 .

[2]  Frank P. Incropera,et al.  Fundamentals of Heat and Mass Transfer , 1981 .

[3]  Glenn P. Forney,et al.  Fire Dynamics Simulator (Version 2) -- Technical Reference Guide | NIST , 2001 .

[4]  Per Thureson EUREFIC - Cone Calorimeter test results. Project 4 of the EUREFIC fire research programme. , 1991 .

[5]  Paul Jowitt,et al.  The Influence of Tunnel Geometry and Ventilation on the Heat Release Rate of a Fire , 2004 .

[6]  Haukur Ingason,et al.  Heat release rates from heavy goods vehicle trailer fires in tunnels , 2005 .

[7]  Michael Spearpoint,et al.  Design Fires for Vehicles in Road Tunnels , 2008 .

[8]  Alan N. Beard,et al.  The Influence of Tunnel Ventilation on Fire Behavior , 2005 .

[9]  Michael Spearpoint,et al.  Calibrating an FDS Simulation of Goods-vehicle Fire Growth in a Tunnel Using the Runehamar Experiment , 2009 .

[10]  Olavi Keski-Rahkonen,et al.  Characterization of the fire behaviour of a burning passenger car. part i: car fire experiments , 1994 .

[11]  Ching-Yuan Lin,et al.  Experimental investigation of burning scenario of loaded 3.49-ton pickup trucks , 2005 .

[12]  H. Ingason 11 – Fire testing in road and railway tunnels , 2006 .

[13]  Kevin B. McGrattan,et al.  Fire dynamics simulator (ver-sion 3) technical reference guide , 2001 .

[14]  Didier Lacroix,et al.  FIRE AND SMOKE CONTROL IN ROAD TUNNELS. , 1998 .

[15]  Haukur Ingason,et al.  HEAT RELEASE RATE MEASUREMENTS IN TUNNEL FIRES. , 1994 .

[16]  K. A. Giblin,et al.  The memorial tunnel fire ventilation test program , 1997 .

[17]  Zoran Filipi,et al.  Simulation Study of a Series Hydraulic Hybrid Propulsion System for a Light Truck , 2007 .

[18]  V. Babrauskas Heat Release In Fires , 1990 .

[19]  Olavi Keski-Rahkonen,et al.  Characterization of the fire behaviour of a burning passenger car. part ii: parametrization of measured rate of heat release curves , 1994 .

[20]  Manas Chanda,et al.  Plastics technology handbook , 1987 .