Symmetric and Nonsymmetric Flame Spread between Parallel Plates of Thick Combustible Solid

To identify the occurrence conditions of a symmetry-breaking phenomenon, numerical simulations of flame spread along parallel, combustible plates are performed. Two-dimensional, time-dependent conservation equations for gas-phase with a one-step global reaction coupled to one-dimensional heat conduc...

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Published in	Combustion science and technology Vol. 193; no. 13; pp. 2175 - 2193
Main Authors	Matsuoka, Tsuneyoshi, Murakami, Satoshi, Yamazaki, Takuya, Nakamura, Yuji
Format	Journal Article
Language	English
Published	New York Taylor & Francis 03.10.2021 Taylor & Francis Ltd
Subjects	Broken symmetry Combustion instability Conduction heating Conductive heat transfer Conservation equations Fire Dynamics Simulator Flame spread Flammability Flow velocity Leading edges Narrow channel Parallel plates Simulation Solid phases Symmetry Symmetry-breaking Time dependence
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Abstract	To identify the occurrence conditions of a symmetry-breaking phenomenon, numerical simulations of flame spread along parallel, combustible plates are performed. Two-dimensional, time-dependent conservation equations for gas-phase with a one-step global reaction coupled to one-dimensional heat conduction for the solid-phase are simultaneously solved. The flame spread having two leading edges was successfully simulated and the behaviors were examined under various flow velocities and channel heights. Based on the time histories of the leading edges, the simulated flame behaviors are distinguished into three modes: symmetric, asymmetric and oscillation, in addition to the extinction. The occurrence conditions of those modes are summarized. The results indicate that the local extinction caused by an excess of the scalar dissipation rate is a key process of the symmetry-breaking. Since coexistence of flames in narrow channel is unstable, the local extinction occurs to achieve a stable state for the system to burn.
AbstractList	To identify the occurrence conditions of a symmetry-breaking phenomenon, numerical simulations of flame spread along parallel, combustible plates are performed. Two-dimensional, time-dependent conservation equations for gas-phase with a one-step global reaction coupled to one-dimensional heat conduction for the solid-phase are simultaneously solved. The flame spread having two leading edges was successfully simulated and the behaviors were examined under various flow velocities and channel heights. Based on the time histories of the leading edges, the simulated flame behaviors are distinguished into three modes: symmetric, asymmetric and oscillation, in addition to the extinction. The occurrence conditions of those modes are summarized. The results indicate that the local extinction caused by an excess of the scalar dissipation rate is a key process of the symmetry-breaking. Since coexistence of flames in narrow channel is unstable, the local extinction occurs to achieve a stable state for the system to burn.
Author	Murakami, Satoshi Yamazaki, Takuya Nakamura, Yuji Matsuoka, Tsuneyoshi
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SubjectTerms	Broken symmetry Combustion instability Conduction heating Conductive heat transfer Conservation equations Fire Dynamics Simulator Flame spread Flammability Flow velocity Leading edges Narrow channel Parallel plates Simulation Solid phases Symmetry Symmetry-breaking Time dependence
Title	Symmetric and Nonsymmetric Flame Spread between Parallel Plates of Thick Combustible Solid
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