The heat conduction from the initiation source to the adjacent surfaces, is a physical phenomenon worth considering in the process of analysing the fire. This complex phenomenon describes how the transport, the exchange, and the redistribution of the thermal energy are carried out. It is based on the theoretical knowledge that describes the initiation and fire evolution in time. The flames transfer heat from nearby surfaces through two distinct physical processes, namely convection and radiation. Another way of heat transfer is conduction, in which case the transfer of heat implies the existence of an environment that can be of a gaseous, liquid or solid nature. This paper illustrates a brief presentation of how the heat transfer is carried...
An important aspect of chemical engineering curriculum is to teach one/multi-dimensional conduction,...
Thermal systems interchanging heat and mass by conduction, convection, radiation (solar and thermal ...
In this paper we present a computational fluid dynamics model for predicting the heat release rates ...
The heat conduction from the initiation source to the adjacent surfaces, is a physical phenomenon wo...
The aim of this paper is to, on the basis of current knowledge about the fire dynamics and by using ...
Controlled fires are beneficial for the generation of heat and power while uncontrolled fires, like ...
Fire spread research is multi-objective. Foresters are usually interested in obtaining reusable prag...
An essential part of fire risk assessment is the analysis of fire hazards and fire propagation. In t...
A mathematical model has been applied to simulate model experiments of the 1987 King's Cross undergo...
Visual simulation of fire is used as special effects in movies, applications of fire simulation for ...
The effective management of fire safety requires understanding in advance the resulting conditions o...
Combining computer fluid dynamic, CFD, models with finite element, FE, models to calculate temperatu...
Fire spread between objects within a compartment is primarily due to the impingement of thermal radi...
A mathematical model has been applied to simulate model experiments of the 1987 King’s Cross undergr...
The motivation for undertaking this research is to contribute to the development of a model of fire ...
An important aspect of chemical engineering curriculum is to teach one/multi-dimensional conduction,...
Thermal systems interchanging heat and mass by conduction, convection, radiation (solar and thermal ...
In this paper we present a computational fluid dynamics model for predicting the heat release rates ...
The heat conduction from the initiation source to the adjacent surfaces, is a physical phenomenon wo...
The aim of this paper is to, on the basis of current knowledge about the fire dynamics and by using ...
Controlled fires are beneficial for the generation of heat and power while uncontrolled fires, like ...
Fire spread research is multi-objective. Foresters are usually interested in obtaining reusable prag...
An essential part of fire risk assessment is the analysis of fire hazards and fire propagation. In t...
A mathematical model has been applied to simulate model experiments of the 1987 King's Cross undergo...
Visual simulation of fire is used as special effects in movies, applications of fire simulation for ...
The effective management of fire safety requires understanding in advance the resulting conditions o...
Combining computer fluid dynamic, CFD, models with finite element, FE, models to calculate temperatu...
Fire spread between objects within a compartment is primarily due to the impingement of thermal radi...
A mathematical model has been applied to simulate model experiments of the 1987 King’s Cross undergr...
The motivation for undertaking this research is to contribute to the development of a model of fire ...
An important aspect of chemical engineering curriculum is to teach one/multi-dimensional conduction,...
Thermal systems interchanging heat and mass by conduction, convection, radiation (solar and thermal ...
In this paper we present a computational fluid dynamics model for predicting the heat release rates ...