Basic experimental study of the edge-flame intensity variation at high temperature and with small fuel-concentration gradient

Min Jung Lee; Nam Kim

doi:10.3795/KSME-B.2011.35.6.633

Basic experimental study of the edge-flame intensity variation at high temperature and with small fuel-concentration gradient

Min Jung Lee, Nam Kim

Dept. of Future Energy Convergence

Chung-Ang University

Research output: Contribution to journal › Article › peer-review

Abstract

In this study, the stabilization of an edge flame and the intensity variation of a diffusion branch were investigated using a multi-slot combustor under conditions of high temperature and small fuel-concentration gradient (FCG). The combustor consists of three narrow channels: a quartz channel and two side-heating combustors. For the accuracy of this experimental study, quantitative analysis was carried out for each boundary condition. Stable edge flames could be observed under high-temperature conditions by controlling the FCG and fuel dilution ratio. Moreover, it was found that the intensity of the diffusion flame was increased by increasing the temperature of the mixture. On the contrary, the intensity of the diffusion flame was decreased by increasing the dilution ratio. It was also found that a propane flame is more sensitively affected by these experimental parameters than a methane flame.

Original language	English
Pages (from-to)	633-640
Number of pages	8
Journal	Transactions of the Korean Society of Mechanical Engineers, B
Volume	35
Issue number	6
DOIs	https://doi.org/10.3795/KSME-B.2011.35.6.633
State	Published - Jun 2011

Keywords

Diffusion flame intensity
Edge flame
Fuel concentration gradient
Fuel dilution
High temperature combustion

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10.3795/KSME-B.2011.35.6.633

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abstract = "In this study, the stabilization of an edge flame and the intensity variation of a diffusion branch were investigated using a multi-slot combustor under conditions of high temperature and small fuel-concentration gradient (FCG). The combustor consists of three narrow channels: a quartz channel and two side-heating combustors. For the accuracy of this experimental study, quantitative analysis was carried out for each boundary condition. Stable edge flames could be observed under high-temperature conditions by controlling the FCG and fuel dilution ratio. Moreover, it was found that the intensity of the diffusion flame was increased by increasing the temperature of the mixture. On the contrary, the intensity of the diffusion flame was decreased by increasing the dilution ratio. It was also found that a propane flame is more sensitively affected by these experimental parameters than a methane flame.",

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AU - Kim, Nam

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AB - In this study, the stabilization of an edge flame and the intensity variation of a diffusion branch were investigated using a multi-slot combustor under conditions of high temperature and small fuel-concentration gradient (FCG). The combustor consists of three narrow channels: a quartz channel and two side-heating combustors. For the accuracy of this experimental study, quantitative analysis was carried out for each boundary condition. Stable edge flames could be observed under high-temperature conditions by controlling the FCG and fuel dilution ratio. Moreover, it was found that the intensity of the diffusion flame was increased by increasing the temperature of the mixture. On the contrary, the intensity of the diffusion flame was decreased by increasing the dilution ratio. It was also found that a propane flame is more sensitively affected by these experimental parameters than a methane flame.

KW - Diffusion flame intensity

KW - Edge flame

KW - Fuel concentration gradient

KW - Fuel dilution

KW - High temperature combustion

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Basic experimental study of the edge-flame intensity variation at high temperature and with small fuel-concentration gradient

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