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Impact of Mass Timber Compartment Fires on Façade Fire Exposure

Thomas Engel, Norman Werther

2022Fire Technology14 citationsDOIOpen Access PDF

Abstract

Abstract This study investigates whether timber surfaces that are initially exposed to fire or partially protected timber components can lead to a more critical fire exposure on the façade. Five full-scale fire tests were carried out. Three tests with a square compartment (4.5 × 4.5 m 2 ) and two with a double-width compartment (4.5 × 9 m 2 ). The tests were conducted with a high fire load density (1085 MJ/m 2 ). While the first test was carried out in a non-combustible compartment, the exposed timber surfaces were subsequently increased in the other tests. The measured compartment gas temperature, heat release rate, temperature on the façade, flame heights along the façade, heat flux and velocities along the façade are presented in this publication. The influence of exposed or only initially protected timber surfaces on the fire impact on the façade is investigated with the help of these results. Finally, these findings are presented and compared with the results of other internationally conducted fire tests from literature. Additional structural fire load leads to an increase in temperatures on the façade. However, there is no significant difference in flame height between the tests. Another result was that an exposed mass timber ceiling leads to higher heat fluxes on the façade than an exposed mass timber wall. Graphical Abstract

Topics & Concepts

Compartment (ship)Ceiling (cloud)Fire testFlame spreadEnvironmental scienceHeat fluxFire Dynamics SimulatorPoison controlHeat loadStructural engineeringForensic engineeringEngineeringWaste managementSmokeChemistryHeat transferGeologyMechanicsCombustionThermodynamicsMedicineEnvironmental healthPhysicsOceanographyOrganic chemistryFire dynamics and safety researchFire effects on ecosystemsFire effects on concrete materials