Review of Convective Heat Transfer Modelling in CFD Simulations of Fire-Driven Flows
Georgios A Maragkos,Tarek Beji +1 more
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In this paper, the most commonly used approaches for modelling convective heat transfer with CFD using Large Eddy Simulations (LES) in the context of fire-driven flows are reviewed.Abstract:
Progress in fire safety science strongly relies on the use of Computational Fluid Dynamics (CFD) to simulate a wide range of scenarios, involving complex geometries, multiple length/time scales and multi-physics (e.g., turbulence, combustion, heat transfer, soot generation, solid pyrolysis, flame spread and liquid evaporation), that could not be studied easily with analytical solutions and zone models. It has been recently well recognised in the fire community that there is need for better modelling of the physics in the near-wall region of boundary layer combustion. Within this context, heat transfer modelling is an important aspect since the fuel gasification rate for solid pyrolysis and liquid evaporation is determined by a heat feedback mechanism that depends on both convection and radiation. The paper focuses on convection and reviews the most commonly used approaches for modelling convective heat transfer with CFD using Large Eddy Simulations (LES) in the context of fire-driven flows. The considered test cases include pool fires and turbulent wall fires. The main assumptions, advantages and disadvantages of each modelling approach are outlined. Finally, a selection of numerical results from the application of the different approaches in pool fire and flame spread cases, is presented in order to demonstrate the impact that convective heat transfer modelling can have in such scenarios.read more
Citations
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Heat Feedback to the Fuel Surface in Pool Fires (NIST SP 971) | NIST
TL;DR: In this paper, the radial variation of the local radiative and local net heat flux incident on the surface of 0.30 m diameter pool fires were measured using a water-cooled, nitrogen purged, narrow view-angle gauge.
Early Fire Detection: A New Indoor Laboratory Dataset and Data Distribution Analysis
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Early Fire Detection: A New Indoor Laboratory Dataset and Data Distribution Analysis
TL;DR: In this paper , the authors analyzed a new dataset gathered from controlled realistic fire experiments conducted in an indoor laboratory environment, where the experiments were conducted in a controlled manner by triggering the source of fire using electrical devices and charcoal on paperboard, cardboard or clothing.
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Influence of air intake position on heat feedback to the fuel surface in mechanically ventilated compartment - An experimental study
TL;DR: In this paper , the effects of air intake position on the burning behavior of liquid pool inside a compartment mechanically ventilated thanks to an exhaust fan were studied, and it was shown that this external flux, which is the sum of radiant heat fluxes from hot gases and compartment internal surfaces, can have a significant contribution to the radiant heat transmitted to the fuel surface.
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A Numerical Simulation of an Experimental Melting Process of a Phase-Change Material without Convective Flows
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