prof. dr. Tarek Beji
- ORCID iD
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0000-0003-1584-1614
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Soot modeling in the numerical simulation of buoyant diffusion flames and fires : a review
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Soot modeling of oxygen-depleted and highly sooty turbulent buoyant flames using the In Situ Adaptive Tabulation (ISAT) method
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A combustion kinetic model based on the fast chemistry assumption : application to non-sooty and sooty laminar diffusion flames
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A laminar smoke point-based soot model considering surface growth and soot reactions
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- Conference Paper
- C1
- open access
Numerical simulations of oscillatory combustion and extinction of a liquid pool fire in a reduced-scale and mechanically-ventilated enclosure
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Soot modeling in large eddy simulation of turbulent buoyant flames using the laminar smoke point and the Eddy Dissipation Concept
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- Journal Article
- A1
- open access
Numerical simulations of oscillatory combustion and extinction of a liquid pool fire in a reduced-scale and mechanically-ventilated enclosure
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- Journal Article
- A1
- open access
An engineering model for water spray cooling : application to a mechanically-ventilated enclosure fire
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- Journal Article
- A1
- open access
On the use of natural and forced convection correlations in predictive CFD simulations of liquid pool fires
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The assessment of the laminar smoke point soot modeling concept for diluted laminar diffusion flames