An integral model of jet fires, originally developed for free fires, has been extended to predict the internal flame structure of jet fires normally impacting cylindrical obstacles, and to predict the radiative and convective loading on the impacted obstacle, based on that flame structure. Predictions of mean temperatures, gaseous species and soot concentrations, provided by the integral model, are used in an adaptation of the discrete transfer method and a single grey-plus-clear gas radiation model to determine radiative fluxes. An independent assessment of the performance of the model in determining radiative heat transfer is presented for both laboratory and field scale fires. Convective loading to the impacted obstacle is determined via...
International audienceMost of the current jet fire models used in the accidental fire risks departme...
In the past decades, the standard approach in the modelling of consequences of pool and jet fires wo...
An experimental full scale characterization of a turbulent propane jet flame has been made in terms ...
An integral model of jet fires, originally developed for free fires, has been extended to predict th...
Most of the current jet fire models used in the accidental fire risks department are semi-empirical....
Predictions are presented from a field model for offshore compartment jet fires. The Constrained equ...
Radiation as a consequence of jet fires is one of the significant parameters in process industry eve...
This paper presents field predictions for two confined jet fires under ventilation-controlled condit...
The Piper Alpha disaster incident occurred in 1998 clearly demonstrated the potential risk that coul...
One of the fundamental steps in the assessment of the risk associated with industrial installations ...
This paper describes the application of a fire field model combined with detailed chemistry to the s...
Among the major accidents that can occur in process plants and in the transportation of hazardous ma...
This work describes relations and equations for a mathematical solution of an accident, where a larg...
This paper describes the application of computational fluid dynamics (CFD) to the prediction of the ...
Fire spread between objects within a compartment is primarily due to the impingement of thermal radi...
International audienceMost of the current jet fire models used in the accidental fire risks departme...
In the past decades, the standard approach in the modelling of consequences of pool and jet fires wo...
An experimental full scale characterization of a turbulent propane jet flame has been made in terms ...
An integral model of jet fires, originally developed for free fires, has been extended to predict th...
Most of the current jet fire models used in the accidental fire risks department are semi-empirical....
Predictions are presented from a field model for offshore compartment jet fires. The Constrained equ...
Radiation as a consequence of jet fires is one of the significant parameters in process industry eve...
This paper presents field predictions for two confined jet fires under ventilation-controlled condit...
The Piper Alpha disaster incident occurred in 1998 clearly demonstrated the potential risk that coul...
One of the fundamental steps in the assessment of the risk associated with industrial installations ...
This paper describes the application of a fire field model combined with detailed chemistry to the s...
Among the major accidents that can occur in process plants and in the transportation of hazardous ma...
This work describes relations and equations for a mathematical solution of an accident, where a larg...
This paper describes the application of computational fluid dynamics (CFD) to the prediction of the ...
Fire spread between objects within a compartment is primarily due to the impingement of thermal radi...
International audienceMost of the current jet fire models used in the accidental fire risks departme...
In the past decades, the standard approach in the modelling of consequences of pool and jet fires wo...
An experimental full scale characterization of a turbulent propane jet flame has been made in terms ...