2019
DOI: 10.1016/j.firesaf.2019.102866
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Framework for rapid prediction of fire-induced heat flux on concrete tunnel liners with curved ceilings

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Cited by 20 publications
(11 citation statements)
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“…The two test programs involve different tunnel geometries, fire sizes, and wind speedsthe range of parameters provided robust validation of the FDS modeling approach. Conservative consistency was achieved between the FDS results and test data; details for this comparison have been reported previously by the authors (7). The validated FDS modeling approach was subsequently used to develop several benchmark fire scenarios for multiple tunnel cross-sectional shapes that are typical of the current U.S. tunnel inventory.…”
Section: Modeling the Fire Hazardmentioning
confidence: 96%
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“…The two test programs involve different tunnel geometries, fire sizes, and wind speedsthe range of parameters provided robust validation of the FDS modeling approach. Conservative consistency was achieved between the FDS results and test data; details for this comparison have been reported previously by the authors (7). The validated FDS modeling approach was subsequently used to develop several benchmark fire scenarios for multiple tunnel cross-sectional shapes that are typical of the current U.S. tunnel inventory.…”
Section: Modeling the Fire Hazardmentioning
confidence: 96%
“…However, intermediate complexity tools like the aforementioned CDSF model can more rapidly predict the distribution of steady-state incident heat flux (i.e., the combination of radiative and convective effects) on the interior surface of the concrete tunnel liner based on a fire event size and location within the tunnel. In the CDSF model, radiation is emitted directly from the fire using discretized solid flame calculations, and convection from smoke is applied as a tapering layer (i.e., with the greatest intensity above the fire and decreasing downward and longitudinally away from that location) ( 7 ). The first step in analyzing the heat flux contour on tunnel liners from vehicle fires is to convert the vehicle footprint to an equivalent pool surface area of diesel fuel that emits the same HRR.…”
Section: Modeling the Fire Hazardmentioning
confidence: 99%
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