In the present work, the fireFoam solver was used with Large Eddy Simulation (LES) and the Eddy Dissipation Concept (EDC) for modelling a medium-scale methane pool fire. A convergence analysis performed, showed that a 2 Million elements three-dimensional mesh, is good enough to attain good numerical results. By comparing the numerical results obtained, with the experimental ones, as well as numerical results from previous studies, it was proven that the fireFoam solver is able to obtain satisfactory results
In attempting to capture the non-linearity of the fire turbulent flow structures, a fully-coupled La...
The risk of terrorist attack on large cryogenic hydrocarbon fuel tankers is unclear, due partly to d...
The thermal environment in small and moderate-scale pool flames is studied by Large Eddy Simulation ...
In the present work, the fireFoam solver was used with Large Eddy Simulation (LES) and the Eddy Diss...
© 2018 The Combustion Institute. Focusing on advancing predictive fire modeling, large eddy simulati...
This article presents a large eddy simulation study of a pool fire in a well-confined and mechanical...
The first objective of this study is to investigate pool fires and improve their modelling by means ...
The objective of this work is to use the Fire Dynamics Simulator (FDS) to investigate the behavior o...
The objective of this work is to use the Fire Dynamics Simulator (FDS) to investigate the behavior o...
Accurate prediction of the consequence of fire is crucial for fire safety analysis and assessment of...
The objective of this study is to develop basic verification tests for FireFOAM, a large eddy simula...
A numerical study simulating the temporal vortical structures of a large-scale buoyant pool fire has...
Large eddy simulation has been applied to the prediction of a small pool fire experimentally tested ...
Fire dynamics simulator (FDS) has been applied to simulate a medium-scale methanol pool fire. The si...
Accidental fires can result in damage of property; endanger people, environment and lead to large ec...
In attempting to capture the non-linearity of the fire turbulent flow structures, a fully-coupled La...
The risk of terrorist attack on large cryogenic hydrocarbon fuel tankers is unclear, due partly to d...
The thermal environment in small and moderate-scale pool flames is studied by Large Eddy Simulation ...
In the present work, the fireFoam solver was used with Large Eddy Simulation (LES) and the Eddy Diss...
© 2018 The Combustion Institute. Focusing on advancing predictive fire modeling, large eddy simulati...
This article presents a large eddy simulation study of a pool fire in a well-confined and mechanical...
The first objective of this study is to investigate pool fires and improve their modelling by means ...
The objective of this work is to use the Fire Dynamics Simulator (FDS) to investigate the behavior o...
The objective of this work is to use the Fire Dynamics Simulator (FDS) to investigate the behavior o...
Accurate prediction of the consequence of fire is crucial for fire safety analysis and assessment of...
The objective of this study is to develop basic verification tests for FireFOAM, a large eddy simula...
A numerical study simulating the temporal vortical structures of a large-scale buoyant pool fire has...
Large eddy simulation has been applied to the prediction of a small pool fire experimentally tested ...
Fire dynamics simulator (FDS) has been applied to simulate a medium-scale methanol pool fire. The si...
Accidental fires can result in damage of property; endanger people, environment and lead to large ec...
In attempting to capture the non-linearity of the fire turbulent flow structures, a fully-coupled La...
The risk of terrorist attack on large cryogenic hydrocarbon fuel tankers is unclear, due partly to d...
The thermal environment in small and moderate-scale pool flames is studied by Large Eddy Simulation ...