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Investigation of the structure and spread rate of flames over PMMA slabs
H. R. Rakesh Ranga, Alagani Harish, ,
Published in Elsevier Ltd
2018
Volume: 130
   
Pages: 477 - 491
Abstract
Experimental and numerical investigations of upward and downward flame spread over flat polymethyl methacrylate (PMMA) slabs are presented here. Experiments have been carried out using PMMA slabs of different thickness in the range of 1.6 mm–5.4 mm. Downward and upward flame spread processes have been recorded under atmospheric pressure and normal gravity conditions. Careful repeatable high resolution measurements of temperature and species fields have also been carried out, to fill the scarcity of such data in literature. These data illustrate the structure and spread rates of flames established over PMMA slabs. A simple numerical model, used widely to simulate flame spread over condensed surfaces, called Fire Dynamics Simulator (FDS), has been employed to numerically simulate the experimental cases. Infinite rate chemistry and sublimation based interface model have been used. FDS is economical when compared to CFD tools such as FLUENT and OpenFOAM. It provides predictive results when compared to theoretical models. Results from FDS have been validated against numerical and experimental data from literature, by comparing quantities such as mass loss rate, flame spread velocity and flame structure. FDS is seen to capture essential transport processes of a spreading diffusion flame. Even though discrepancies have been observed between the numerical and experimental results near the fuel surface, the overall comparison of the trends has been quite reasonable. Numerical model is capable of predicting the unsteady and steady features of downward spread as well as transient rapid upward flame spread, as observed in the experimental results. Detailed structure and flow field have been presented and discussed. © 2017 Elsevier Ltd
About the journal
JournalData powered by TypesetApplied Thermal Engineering
PublisherData powered by TypesetElsevier Ltd
ISSN13594311
Open AccessNo
Concepts (14)
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    Atmospheric pressure
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    Computational fluid dynamics
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    Computer simulation
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    Numerical models
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    Polymethyl methacrylates
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    Different thickness
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    DOWNWARD SPREAD
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    Fire dynamics simulator
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    Flame structure
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    HIGH-RESOLUTION MEASUREMENTS
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    Numerical investigations
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    PMMA
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    UPWARD SPREAD
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    Flame research