Add to ORKGFire is a phenomenon that covers a multiplicity of scales depending on the different processes involved. Length scales range from the nanometres when addressing material flammability to the kilometres when dealing with forest fires, while time scales cover a broad spectrum too. Heating of structural elements can be measured in hours while characteristic chemical times for reactions do not exceed the millisecond. Despite these wide ranges, a series of simple scaling laws seem to describe well a multiplicity of processes associated to fire. In this review some of those laws will be presented covering a wide range of events, from ignition to compartment fires and global building behaviour. Different non-dimensional parameters will be ge...
Abstract: Pool fire is a classical dangerous phenomenon that can occur in various infrastructures an...
ABSTRACT: In this paper, flammability parameters associated with the igni-tion, combustion, and fire...
Current design codes and most of the understanding of behaviour of structures in fire are based on s...
Abstract: Fire is a phenomenon that covers a multiplicity of scales depending on the different proce...
The role of combustion research in fire safety is revisited through the process of Scaling-Up fire. ...
A partial non-dimensionalization of the Navier-Stokes equations is used to obtain order of magnitude...
Gaseous flames and pulverized coal flames are considered to examine relationships between lab-scale ...
A review is made of work on scale modeling in fire and presented from the experience of the author. ...
Heat conduction scaling relations are given, particularly some relating time and dimension, and empi...
The events of September 11th showed the combined effects of fire and structural loading on a high-ri...
International audienceThis paper presents and discusses some scaling laws which have to be considere...
The last two decades have seen new insights, data and analytical methods to establish the behaviour...
A challenge for fire researchers is obtaining data from those fires that are most dangerous and cost...
Controlled fires are beneficial for the generation of heat and power while uncontrolled fires, like ...
International audiencePool fire is a classical dangerous phenomenon that can occur in various infras...
Abstract: Pool fire is a classical dangerous phenomenon that can occur in various infrastructures an...
ABSTRACT: In this paper, flammability parameters associated with the igni-tion, combustion, and fire...
Current design codes and most of the understanding of behaviour of structures in fire are based on s...
Abstract: Fire is a phenomenon that covers a multiplicity of scales depending on the different proce...
The role of combustion research in fire safety is revisited through the process of Scaling-Up fire. ...
A partial non-dimensionalization of the Navier-Stokes equations is used to obtain order of magnitude...
Gaseous flames and pulverized coal flames are considered to examine relationships between lab-scale ...
A review is made of work on scale modeling in fire and presented from the experience of the author. ...
Heat conduction scaling relations are given, particularly some relating time and dimension, and empi...
The events of September 11th showed the combined effects of fire and structural loading on a high-ri...
International audienceThis paper presents and discusses some scaling laws which have to be considere...
The last two decades have seen new insights, data and analytical methods to establish the behaviour...
A challenge for fire researchers is obtaining data from those fires that are most dangerous and cost...
Controlled fires are beneficial for the generation of heat and power while uncontrolled fires, like ...
International audiencePool fire is a classical dangerous phenomenon that can occur in various infras...
Abstract: Pool fire is a classical dangerous phenomenon that can occur in various infrastructures an...
ABSTRACT: In this paper, flammability parameters associated with the igni-tion, combustion, and fire...
Current design codes and most of the understanding of behaviour of structures in fire are based on s...