Modelling of the Growth Phase of Dalmarnock Fire Test One
dc.contributor.author
Rein, Guillermo
en
dc.contributor.author
Jahn, Wolfram
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dc.contributor.author
Torero, Jose L
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dc.contributor.sponsor
BRE Trust and EU Alban
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dc.date.accessioned
2011-02-08T15:07:03Z
dc.date.available
2011-02-08T15:07:03Z
dc.date.issued
2011-02
dc.description
Paper presented at Fire and Materials Conference 2011.
en
dc.description.abstract
The challenge of modelling a well characterized full-scale fire test using computational fluid dynamics
is illustrated in this work comparing a priori and a posteriori simulations. In 2006, The Dalmarnock Fire Tests
were conducted in two identical 3.5 m 4.75 m 2.5 m concrete enclosures with a real residential fuel load. This
data set provides measured data at the highest spatial resolution available from a fire experiment to date. Prior
to the tests, an international study of fire modelling was conducted in order to assess the state-of-the-art of fire
simulations using a round-robin approach. Each of the seven round-robin teams independently simulated the
test scenario a priori using a common detailed description of the compartment geometry, fuel packages, ignition
source and ventilation conditions. Most teams decide to use the numerical code Fire Dynamics Simulator
(FDSv4). Comparison to the experimental measurements showed a large scatter and considerable disparity
(much larger than the error and variability associated to the experiments). The study showed that the accuracy
predicting fire growth is poor. A posteriori simulations of the growth phase were conducted afterwards while
having full access to all the measurements. No previous fire simulation had this large amount of data available
for comparison. Simulations were compared against average and local measurements. The heat release rate is
reconstructed from additional laboratory tests and upper and lower bounds for the fire growth are found. Within
these bounds and after adjusting uncertain parameters, the level of agreement reached with the measurements
was of 10 to 50% for the evolution of the average hot layer temperatures and between 20% and 200% for local
temperatures.
en
dc.identifier.citation
G Rein , W Jahn, JL Torero, "Modelling of the Growth Phase of Dalmarnock Fire Test One", 12th International Fire and Materials Conference, San Francisco, Feb 2011
dc.identifier.uri
http://hdl.handle.net/1842/4777
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en
dc.publisher
Fire and Materials 2011 Conference
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dc.subject
a priori
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dc.subject
a posteriori
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FDS
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round robin
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Fire Dynamics Simulator
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fire safety engineering
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dc.title
Modelling of the Growth Phase of Dalmarnock Fire Test One
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dc.type
Article
en
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