A Cellular Automata Approach To Cfd Flame Spread Modelling

In this study, a new approach for predicting flame spread along a combustible solid is developed. This presented approach consists of a two-dimensional flame spread model coupled with a one-dimensional pyrolysis model in the thickness direction. The flame spread model is based on a cellular automaton combined with piloted ignition temperature, spontaneous ignition temperature, and pyrolysis temperature of a combustible solid. In addition, this approach is used to predict two typical kinds of flame spread, i.e., upward flame spread and ceiling flame spread. The existing experimental data including the upward flame spread over plywood and the ceiling flame spread beneath medium density fiberboard (MDF) are used for comparison to validate this approach. The results obtained from numerical simulations using this approach are consistent with these two kinds of experimental tests.

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“…Fernando [25] also presented the idea of cellular automata applied to CFD flame spread. Research on the subject is still active.…”

Section: Introductionmentioning

confidence: 99%

A New Approach for Predicting Flame Spread along Combustible Solid based on Cellular Automaton

Weng

Yang

Yuan

2007

Journal of Fire Sciences

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A discrete dynamical model for flame spread over combustible flat solid surfaces subject to pyrolysis with charring—an application example to upward flame spread

Baroudi

2003

Fire Safety Journal

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Cellular Automata in Chemistry and Chemical Engineering

Menshutina

Kolnoochenko

Lebedev

2020

Annu. Rev. Chem. Biomol. Eng.

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We review the modern state of cellular automata (CA) applications for solving practical problems in chemistry and chemical technology. We consider the problems of material structure modeling and prediction of materials’ morphology-dependent properties. We review the use of the CA approach for modeling diffusion, crystallization, dissolution, erosion, corrosion, adsorption, and hydration processes. We also consider examples of hybrid CA-based models, which are combinations of various CA with other computational approaches and modeling methods. Finally, we discuss the use of high-performance parallel computing to increase the efficiency of CA.

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A Cellular Automata Approach To Cfd Flame Spread Modelling

Cited by 3 publications

References 11 publications

A New Approach for Predicting Flame Spread along Combustible Solid based on Cellular Automaton

A New Approach for Predicting Flame Spread along Combustible Solid based on Cellular Automaton

A discrete dynamical model for flame spread over combustible flat solid surfaces subject to pyrolysis with charring—an application example to upward flame spread

Cellular Automata in Chemistry and Chemical Engineering

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