Heat Transfer of a Methane+Oxygen Bunsen Flame Jet

M.J. Remie; M.F.G. Cremers; K.R.A.M. Schreel; L.P.H. Goey, de

Heat Transfer of a Methane+Oxygen Bunsen Flame Jet

M.J. Remie, M.F.G. Cremers, K.R.A.M. Schreel, L.P.H. Goey, de

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Abstract

In order to determine the heat flux from an oxy-fuel flame to glass products, an analytical approximation for the velocity of an isothermal laminar hot gas flow heating a flat plate is presented. The strain rate of the burnt gases can be calculated knowing the velocity profile. This strain rate is an important parameter which affects the heat flux from the flame to the plate a lot. Both non-viscous and viscous gas flows are discussed. An expression for the heat flux is derived by implementing the expression for the velocity in the energy equation for the burnt gases close to the plate. The results of the analytical approximations are compared to calculations performed with Fluent. The outcome of the numerical calculations show good agreement with the analytical results.

Original language	English
Title of host publication	Proceedings of the European Combustion Meeting 2005
Place of Publication	Belgium, Louvain-la-Neuve
Pages	Paper-190
Publication status	Published - 2005

Cite this

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title = "Heat Transfer of a Methane+Oxygen Bunsen Flame Jet",

abstract = "In order to determine the heat flux from an oxy-fuel flame to glass products, an analytical approximation for the velocity of an isothermal laminar hot gas flow heating a flat plate is presented. The strain rate of the burnt gases can be calculated knowing the velocity profile. This strain rate is an important parameter which affects the heat flux from the flame to the plate a lot. Both non-viscous and viscous gas flows are discussed. An expression for the heat flux is derived by implementing the expression for the velocity in the energy equation for the burnt gases close to the plate. The results of the analytical approximations are compared to calculations performed with Fluent. The outcome of the numerical calculations show good agreement with the analytical results.",

author = "M.J. Remie and M.F.G. Cremers and K.R.A.M. Schreel and {Goey, de}, L.P.H.",

year = "2005",

language = "English",

pages = "Paper--190",

booktitle = "Proceedings of the European Combustion Meeting 2005",

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T1 - Heat Transfer of a Methane+Oxygen Bunsen Flame Jet

AU - Remie, M.J.

AU - Cremers, M.F.G.

AU - Schreel, K.R.A.M.

AU - Goey, de, L.P.H.

PY - 2005

Y1 - 2005

N2 - In order to determine the heat flux from an oxy-fuel flame to glass products, an analytical approximation for the velocity of an isothermal laminar hot gas flow heating a flat plate is presented. The strain rate of the burnt gases can be calculated knowing the velocity profile. This strain rate is an important parameter which affects the heat flux from the flame to the plate a lot. Both non-viscous and viscous gas flows are discussed. An expression for the heat flux is derived by implementing the expression for the velocity in the energy equation for the burnt gases close to the plate. The results of the analytical approximations are compared to calculations performed with Fluent. The outcome of the numerical calculations show good agreement with the analytical results.

AB - In order to determine the heat flux from an oxy-fuel flame to glass products, an analytical approximation for the velocity of an isothermal laminar hot gas flow heating a flat plate is presented. The strain rate of the burnt gases can be calculated knowing the velocity profile. This strain rate is an important parameter which affects the heat flux from the flame to the plate a lot. Both non-viscous and viscous gas flows are discussed. An expression for the heat flux is derived by implementing the expression for the velocity in the energy equation for the burnt gases close to the plate. The results of the analytical approximations are compared to calculations performed with Fluent. The outcome of the numerical calculations show good agreement with the analytical results.

M3 - Conference contribution

SP - Paper-190

BT - Proceedings of the European Combustion Meeting 2005

CY - Belgium, Louvain-la-Neuve

ER -

Heat Transfer of a Methane+Oxygen Bunsen Flame Jet

Abstract

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