Fire dynamics and heat transfer: Advances in flame spread analysis

Dalower Hossain *

Department of Fire Science, University of New Haven, Connecticut, USA.

 
Review
Open Access Research Journal of Science and Technology, 2022, 06(02), 070-075.
Article DOI: 10.53022/oarjst.2022.6.2.0061
Publication history: 
Received on 22 September 2022; revised on 11 December 2022; accepted on 14 December 2022
 
Abstract: 
Fire dynamics is a branch of research in which those mechanisms that govern heat transfer and flame spread in a fire at a particular instant are studied and understood, because both are good in determining the behaviour of a fire and how to suppress it. More recently, with advances in computational modeling, experimental techniques, and material science, we now have improved tools for predicting and dealing with fire hazards. In this investigation, we review the basic principles of heat transfer conduction, convection and radiation in relation to the propagation of flames in various environments. It also studies mechanisms of flame spread including surface, turbulence, and upward flame dynamics. Among these are the Integration of cutting-edge technology like Computational Fluid Dynamics (CFD), Artificial Intelligence (AI), Fire resistant Materials and others, which have changed the look of fire safety Engineering and brought in enhancement in the Risk Assessment and Control measures. These developments still leave open the complex real world fire challenges and current predictive model limitations. It reviews key advances in fire dynamics research and their uses in fire safety engineering and predicts future possibilities in the innovation of fire prevention and control.
 
Keywords: 
Computational Fluid Dynamics; Environmental Damage; Fire Dynamics; Global Impact; Heat Transfer
 
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