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|Author(s):||Ofodike A. Ezekoye; M J. Hurley; Jose L. Torero; Kevin B. McGrattan;|
|Title:||Applications of Heat Transfer Fundamentals to Fire Modeling|
|Published:||June 25, 2013|
|Abstract:||The fire industry relies on fire engineers and scientists to develop materials and technologies used to either resist, detect, or suppress fire. While combustion processes are the drivers for what might be considered to be fire phenomena, it is heat transfer physics that mediate how fire spreads. Much of the knowledge of fire phenomena has been encapsulated and exercised in fire modeling software tools. Over the past 30 years, participants in the fire industry have begun to use fire modeling tools to aid in decision making associated with design and analysis. In the rest of this paper we will discuss what the drivers have been for the growth of fire modeling tools, the types of submodels incorporated into such tools, the role of model verification, validation, and uncertainty propagation in these tools, and possible futures for these types of tools to best meet the requirements of the user community. Throughout this discussion, we identify how heat transfer research has supported and aided the advancement of fire modeling.|
|Citation:||Journal of Thermal Science and Engineering Applications|
|Research Areas:||Fire Modeling|
|PDF version:||Click here to retrieve PDF version of paper (350KB)|