Add to ORKGComputational Fluid Dynamics (CFD) models are used extensively by fire protection engineers for performance based design and forensic analysis. The equations of motion describing the gas phase are relatively well known and the approximations in the various gas phase sub-models have been extensively studied. However, coupling of the gas phase and the condensed phase to describe flame spread over a burning solid, has proven to be difficult to model. This is due to a lack of understanding of the underlying physical phenomena that take place during the decomposition of the solid as well as poor characterization of the fundamental material properties that control the burning process. The overall goal of this project is to improve the capability ...
A detailed description of the existing National Research Council of Canada's (NRC) one-zone fire gro...
The paper provides a concise overview of a coordinated experimental/theoretical/numerical program at...
Flame spread in textile materials was modelled using two different simulation programs: the semi-emp...
The motivation for undertaking this research is to contribute to the development of a model of fire ...
This study presents the results from a set of 11 large-scale open fire tests performed on flexible p...
Computer simulation has been demonstrated to be credible, when properly applied, as a tool to help f...
Flexible polyurethane foam (PUF) is a very versatile material ever created. The material is used for...
Due to the complex and varying nature of a flame and its products, the scaling of fire behaviour has...
Polyurethane foams are widely used in many industrial applications: automotive, upholstered furnitur...
This paper focuses on the growth and spread stage of full-scale fires in enclosures, where a localis...
This report presents the comparisons of numerical predictions with the measurements of the heat rele...
The fire behaviour of polyether polyurethane foam has been studied at three scales: matter scale, sm...
The polyurethane foam material is commonly used and marketed in two forms, namely flexible and rigid...
Initial fire spread is composed of the processes of ignition, flame spread, and burning rate. The ef...
Presently, there is a need for a robust numerical simulation approach to investigate the influence o...
A detailed description of the existing National Research Council of Canada's (NRC) one-zone fire gro...
The paper provides a concise overview of a coordinated experimental/theoretical/numerical program at...
Flame spread in textile materials was modelled using two different simulation programs: the semi-emp...
The motivation for undertaking this research is to contribute to the development of a model of fire ...
This study presents the results from a set of 11 large-scale open fire tests performed on flexible p...
Computer simulation has been demonstrated to be credible, when properly applied, as a tool to help f...
Flexible polyurethane foam (PUF) is a very versatile material ever created. The material is used for...
Due to the complex and varying nature of a flame and its products, the scaling of fire behaviour has...
Polyurethane foams are widely used in many industrial applications: automotive, upholstered furnitur...
This paper focuses on the growth and spread stage of full-scale fires in enclosures, where a localis...
This report presents the comparisons of numerical predictions with the measurements of the heat rele...
The fire behaviour of polyether polyurethane foam has been studied at three scales: matter scale, sm...
The polyurethane foam material is commonly used and marketed in two forms, namely flexible and rigid...
Initial fire spread is composed of the processes of ignition, flame spread, and burning rate. The ef...
Presently, there is a need for a robust numerical simulation approach to investigate the influence o...
A detailed description of the existing National Research Council of Canada's (NRC) one-zone fire gro...
The paper provides a concise overview of a coordinated experimental/theoretical/numerical program at...
Flame spread in textile materials was modelled using two different simulation programs: the semi-emp...