Add to ORKGTurbulent pool fires have been studied as a canonical configuration in fire science with wide interest. A numerical study of a small-scale turbulent heptane pool fire is conducted in the present study to understand the interactions and coupling among turbulence, chemistry, soot, and radiation in pool fires. A Monte Carlo ray tracing based radiation solver, with line-by-line spectral models for five gaseous species and soot, is coupled with a fireFOAM-based reacting flow solver to describe the dynamics of the target fire. A 33-species skeletal mechanism is employed to describe the finite-rate chemistry. A two-equation soot model with C2H2 based inception model is incorporated to describe soot dynamics. Turbulence is resolved by the computati...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
International audienceThis work focuses on the numerical modelling of radiative heat transfer in lab...
International audienceThis work focuses on the numerical modelling of radiative heat transfer in lab...
Turbulent pool fires have been studied as a canonical configuration in fire science with wide intere...
Accidental fires resulting from fuel spills and tank explosions commonly burn as pool fires. These f...
The first objective of this study is to investigate pool fires and improve their modelling by means ...
A historical analysis by Planas-Cuchi ‘et al’. showed that pool fires are one of the most frequent f...
Buoyancy-driven diffusion flames have been widely studied as a canonical fire configuration due to p...
Buoyancy-driven diffusion flames have been widely studied as a canonical fire configuration due to p...
Buoyant pool fires are representative of accidental and arson related fires resulting in extensive p...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
International audienceElsevier The objective of this study is to assess the effects of Turbulence Ra...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
The importance of turbulent fluctuations in temperature and species concentration in thermal radiati...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
International audienceThis work focuses on the numerical modelling of radiative heat transfer in lab...
International audienceThis work focuses on the numerical modelling of radiative heat transfer in lab...
Turbulent pool fires have been studied as a canonical configuration in fire science with wide intere...
Accidental fires resulting from fuel spills and tank explosions commonly burn as pool fires. These f...
The first objective of this study is to investigate pool fires and improve their modelling by means ...
A historical analysis by Planas-Cuchi ‘et al’. showed that pool fires are one of the most frequent f...
Buoyancy-driven diffusion flames have been widely studied as a canonical fire configuration due to p...
Buoyancy-driven diffusion flames have been widely studied as a canonical fire configuration due to p...
Buoyant pool fires are representative of accidental and arson related fires resulting in extensive p...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
International audienceElsevier The objective of this study is to assess the effects of Turbulence Ra...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
The importance of turbulent fluctuations in temperature and species concentration in thermal radiati...
International audienceTwo synthetic 30 cm-diameter pool fires, generated from experimental data, are...
International audienceThis work focuses on the numerical modelling of radiative heat transfer in lab...
International audienceThis work focuses on the numerical modelling of radiative heat transfer in lab...