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Fire tests with automatic sprinklers in an intermediate scale tunnel

Haukur Ingason, Ying Zhen Li, Magnus Arvidson, Lei Jiang

2022Fire Safety Journal15 citationsDOIOpen Access PDF

Abstract

A series of 1:3 intermediate scale tunnel fire tests was performed to investigate the performance of a fully automatic sprinkler system in a road tunnel. The experiments were carried in a container tunnel with scaled geometry, using wood pallets as the fire source to simulate HGV fires. The activation of the sprinklers was simulated by using thermocouples that corresponded to a given Thermal Response Index (RTI) of a sprinkler bulb or a link. A total of 12 tests were carried out with varying longitudinal velocities (0.8–1.7 m/s), sprinkler activation temperatures (68–141 °C), water densities (2.9–8.7 mm/min) and types of arrangement of the fuel. The activation times, number of activated sprinklers, maximum heat release rates and other key parameters are presented and analyzed. The results show that the water density plays a key role in the performance of the automatic sprinkler systems tested. A high tunnel ventilation velocity, low water density and low sprinkler activation temperature are not recommended.

Topics & Concepts

MetreThermocouplePalletFire safetyEnvironmental scienceWater tunnelVentilation (architecture)EngineeringMeteorologyStructural engineeringMechanical engineeringCivil engineeringVortexElectrical engineeringPhysicsAstronomyFire dynamics and safety researchEvacuation and Crowd DynamicsFire effects on ecosystems