Effect of Firefighting Intervention on Occupant Tenability during a Residential Fire

Kerber, Stephen; Regan, J.W.; Horn, Gavin P.; Fent, Kenneth W.; Smith, Denise L.

doi:10.1007/s10694-019-00864-2

Cited by 7 publications

(2 citation statements)

References 13 publications

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“…In a continued effort to better characterize the firefighter's operational environment, the Illinois Fire Service Institute (IFSI), UL Research Institute's Fire Safety Research Institute (FSRI), and NIST conducted a number of experiments measuring the heat flux throughout the structures and on the firefighter's helmet. [13][14][15][16] Madrzykowski 17 compiled these data to create a summary of the thermal conditions indicating that heat flux data at the locations on the fireground ranged from 1 to 30 kW/m 2 , though positions where firefighters would most likely be operating ranged from 1 to 15 kW/m 2 .…”

Section: Introductionmentioning

confidence: 99%

Thermal degradation of self-contained breathing apparatus facepiece lenses under radiant thermal loads

Kesler

2024

Journal of Fire Sciences

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The self-contained breathing apparatus is one of the most critical components of the firefighting personal protective ensemble providing protection from potentially toxic gases and products of combustion. Three models of self-contained breathing apparatus facepiece lenses meeting various editions of national standards were exposed to radiant thermal loads of 5, 10, 15, and 20 kW/m2 until thermal degradation resulted in hole formation or the test duration reached 30 min. Thermal damage was documented as time to crazing, bubbling, and hole formation. Temperature was recorded within the facepiece. There were significant differences in times to thermal damage between lenses. The facepiece lens model meeting the 2013 edition of National Fire Protection Association 1981 had significantly longer times to thermal degradation than those meeting older editions of the standard. Maximum temperatures were higher in the facepiece model meeting the 2013 edition of National Fire Protection Association 1981, likely because of the extended time the radiant load was applied.

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Section: Introductionmentioning

confidence: 99%

Thermal degradation of self-contained breathing apparatus facepiece lenses under radiant thermal loads

Kesler

2024

Journal of Fire Sciences

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“…Even fire intervention recommendations have significant differences across the world regarding the amount of water required for different firefighting operations [10]. Most studies are focused on residential buildings and safe evacuation of the occupants [12][13][14]. Sa¨rdqvist et al analysed the different tactical approaches and the water flow densities used based on datasets from the UK fire and rescue services.…”

Section: Introductionmentioning

confidence: 99%

Impact of Firefighting Sprays on the Fire Performance of Structural Steel Members

et al. 2022

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The feasibility of coupled computational fluid dynamics (CFD) and finite element (FE) simulations to aid the planning of fire intervention tactics and the effectiveness of structural cooling during firefighting were investigated. Water sprays, generated using fire monitors, were characterized using bucket tests and the results were used for calibrating the CFD spray model. The cooling ability of the sprays was measured experimentally by applying them onto a fire exposed steel beam. The experimental results showed that water application produces a sudden drop in steel temperatures and after 10–15 s, no significant further reduction in temperature was observed. The CFD-FE coupling was performed using the adiabatic surface temperature method, extended here to include the cooling by water droplets. The coupled CFD-FE model was validated using the experimental data and applied to simulate the intervention to a developing warehouse fire, showing how an attempt to cool the structure reduces the temperatures but does not stall the fire-spread. In fact, the intervention -induced vapor generation was found to enhance the flow of hot gases and accelerate the fire-spread if the water resources are inadequate. Thermal and stress analyses of the cooled and uncooled truss beams were performed, showing how the spray cooling halted the truss mid-span deformation.

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Fire Hazards and Firefighting in the Residential Environment

Weinschenk

2024

Digital Innovations in Architecture, Engineering and Construction

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Effect of Firefighting Intervention on Occupant Tenability during a Residential Fire

Cited by 7 publications

References 13 publications

Thermal degradation of self-contained breathing apparatus facepiece lenses under radiant thermal loads

Thermal degradation of self-contained breathing apparatus facepiece lenses under radiant thermal loads

Impact of Firefighting Sprays on the Fire Performance of Structural Steel Members

Fire Hazards and Firefighting in the Residential Environment

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