An experimental study of distorted tulip flame formation in a closed duct

The dynamics of a distorted tulip flame in a closed duct has been experimentally and numerically investigated [Xiao et al., Combust. Flame 159 (2012) 1523–1538]. In the present work, the distorted tulip flame formation and the flame evolution after its complete formation is studied to provide furthe...

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Veröffentlicht in:	Combustion and flame 2013-09, Vol.160 (9), p.1725-1728
Hauptverfasser:	Xiao, Huahua, wang, Qingsong, Shen, Xiaobo, Guo, Song, Sun, Jinhua
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Cascades Collapse Combustion Combustion. Flame Cusps Deceleration Distorted tulip flame Distortion Ducts Energy Energy. Thermal use of fuels Exact sciences and technology Flame deceleration Inversions Pressure wave Schlieren Taylor instability Theoretical studies. Data and constants. Metering
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container_title	Combustion and flame
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creator	Xiao, Huahua wang, Qingsong Shen, Xiaobo Guo, Song Sun, Jinhua
description	The dynamics of a distorted tulip flame in a closed duct has been experimentally and numerically investigated [Xiao et al., Combust. Flame 159 (2012) 1523–1538]. In the present work, the distorted tulip flame formation and the flame evolution after its complete formation is studied to provide further insight into the formation process of the tulip flame distortions. The schlieren images show that a second distorted tulip flame forms with a cascade of secondary cusps on the primary tulip lips just before the collapse of the first one. The pressure wave triggered by the first contact of the flame with the sidewalls is responsible for the periodic flame deceleration and plays an important role in the formation of tulip flame distortions. The close analogy of the distorted tulip phenomenon to the flame inversion which results from the interaction of a convex flame with a shock wave suggests that the sudden flame deceleration acts in a similar way via the Taylor instability in the formation of the distorted tulip flames.
doi_str_mv	10.1016/j.combustflame.2013.03.011
format	Article
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Flame 159 (2012) 1523–1538]. In the present work, the distorted tulip flame formation and the flame evolution after its complete formation is studied to provide further insight into the formation process of the tulip flame distortions. The schlieren images show that a second distorted tulip flame forms with a cascade of secondary cusps on the primary tulip lips just before the collapse of the first one. The pressure wave triggered by the first contact of the flame with the sidewalls is responsible for the periodic flame deceleration and plays an important role in the formation of tulip flame distortions. 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Flame 159 (2012) 1523–1538]. In the present work, the distorted tulip flame formation and the flame evolution after its complete formation is studied to provide further insight into the formation process of the tulip flame distortions. The schlieren images show that a second distorted tulip flame forms with a cascade of secondary cusps on the primary tulip lips just before the collapse of the first one. The pressure wave triggered by the first contact of the flame with the sidewalls is responsible for the periodic flame deceleration and plays an important role in the formation of tulip flame distortions. The close analogy of the distorted tulip phenomenon to the flame inversion which results from the interaction of a convex flame with a shock wave suggests that the sudden flame deceleration acts in a similar way via the Taylor instability in the formation of the distorted tulip flames.</description><subject>Applied sciences</subject><subject>Cascades</subject><subject>Collapse</subject><subject>Combustion</subject><subject>Combustion. Flame</subject><subject>Cusps</subject><subject>Deceleration</subject><subject>Distorted tulip flame</subject><subject>Distortion</subject><subject>Ducts</subject><subject>Energy</subject><subject>Energy. Thermal use of fuels</subject><subject>Exact sciences and technology</subject><subject>Flame deceleration</subject><subject>Inversions</subject><subject>Pressure wave</subject><subject>Schlieren</subject><subject>Taylor instability</subject><subject>Theoretical studies. Data and constants. 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Flame</topic><topic>Cusps</topic><topic>Deceleration</topic><topic>Distorted tulip flame</topic><topic>Distortion</topic><topic>Ducts</topic><topic>Energy</topic><topic>Energy. Thermal use of fuels</topic><topic>Exact sciences and technology</topic><topic>Flame deceleration</topic><topic>Inversions</topic><topic>Pressure wave</topic><topic>Schlieren</topic><topic>Taylor instability</topic><topic>Theoretical studies. Data and constants. 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Flame 159 (2012) 1523–1538]. In the present work, the distorted tulip flame formation and the flame evolution after its complete formation is studied to provide further insight into the formation process of the tulip flame distortions. The schlieren images show that a second distorted tulip flame forms with a cascade of secondary cusps on the primary tulip lips just before the collapse of the first one. The pressure wave triggered by the first contact of the flame with the sidewalls is responsible for the periodic flame deceleration and plays an important role in the formation of tulip flame distortions. The close analogy of the distorted tulip phenomenon to the flame inversion which results from the interaction of a convex flame with a shock wave suggests that the sudden flame deceleration acts in a similar way via the Taylor instability in the formation of the distorted tulip flames.</abstract><cop>Amsterdam</cop><pub>Elsevier Inc</pub><doi>10.1016/j.combustflame.2013.03.011</doi><tpages>4</tpages></addata></record>
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subjects	Applied sciences Cascades Collapse Combustion Combustion. Flame Cusps Deceleration Distorted tulip flame Distortion Ducts Energy Energy. Thermal use of fuels Exact sciences and technology Flame deceleration Inversions Pressure wave Schlieren Taylor instability Theoretical studies. Data and constants. Metering
title	An experimental study of distorted tulip flame formation in a closed duct
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