Extinction of Lean Propane/Air Turbulent Premixed Flames in a Stagnation Point Flow

Yuji Yahagi; Toshihisa Ueda; Masahiko Mizomoto

doi:10.1299/kikaib.57.2798

Extinction of Lean Propane/Air Turbulent Premixed Flames in a Stagnation Point Flow

Yuji Yahagi, Toshihisa Ueda, Masahiko Mizomoto

Department of Mechanical Engineering

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

Abstract

Effects of flame stretch and flame curvature on the extinction of turbulent premixed flames in a stagnation point flow have been studied experimentally. A lean propane/air mixture has been used. The bulk stretch rate was varied from 15 s⁻¹ to 60 s⁻¹, while the turbulent intensity of velocity fluctuation in the approach flow was varied up to 0.6 m/s. In the near extinction limits, the local stretch rate was estimated by measuring the mean centerline velocity with LDV and the local flame curvature was measured by using the laser tomographic method. The local stretch rate decreases, while the stretch rate due to the local flame curvature increases with increasing turbulent intensity. As a result, it is proposed that the sum of these two stretch rates plays a key role in flame extinction.

Original language	English
Pages (from-to)	2798-2803
Number of pages	6
Journal	Transactions of the Japan Society of Mechanical Engineers Series B
Volume	57
Issue number	540
DOIs	https://doi.org/10.1299/kikaib.57.2798
Publication status	Published - 1991

Keywords

Combustion
Extinction
Flame Curvature
Flame Stretch
Laser Tomography
Premixed Combustion
Stagnation Point Flow
Turbulent Flow

ASJC Scopus subject areas

Condensed Matter Physics
Mechanical Engineering

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10.1299/kikaib.57.2798

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title = "Extinction of Lean Propane/Air Turbulent Premixed Flames in a Stagnation Point Flow",

abstract = "Effects of flame stretch and flame curvature on the extinction of turbulent premixed flames in a stagnation point flow have been studied experimentally. A lean propane/air mixture has been used. The bulk stretch rate was varied from 15 s−1 to 60 s−1, while the turbulent intensity of velocity fluctuation in the approach flow was varied up to 0.6 m/s. In the near extinction limits, the local stretch rate was estimated by measuring the mean centerline velocity with LDV and the local flame curvature was measured by using the laser tomographic method. The local stretch rate decreases, while the stretch rate due to the local flame curvature increases with increasing turbulent intensity. As a result, it is proposed that the sum of these two stretch rates plays a key role in flame extinction.",

keywords = "Combustion, Extinction, Flame Curvature, Flame Stretch, Laser Tomography, Premixed Combustion, Stagnation Point Flow, Turbulent Flow",

author = "Yuji Yahagi and Toshihisa Ueda and Masahiko Mizomoto",

year = "1991",

doi = "10.1299/kikaib.57.2798",

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journal = "Nihon Kikai Gakkai Ronbunshu, B Hen/Transactions of the Japan Society of Mechanical Engineers, Part B",

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T1 - Extinction of Lean Propane/Air Turbulent Premixed Flames in a Stagnation Point Flow

AU - Yahagi, Yuji

AU - Ueda, Toshihisa

AU - Mizomoto, Masahiko

PY - 1991

Y1 - 1991

N2 - Effects of flame stretch and flame curvature on the extinction of turbulent premixed flames in a stagnation point flow have been studied experimentally. A lean propane/air mixture has been used. The bulk stretch rate was varied from 15 s−1 to 60 s−1, while the turbulent intensity of velocity fluctuation in the approach flow was varied up to 0.6 m/s. In the near extinction limits, the local stretch rate was estimated by measuring the mean centerline velocity with LDV and the local flame curvature was measured by using the laser tomographic method. The local stretch rate decreases, while the stretch rate due to the local flame curvature increases with increasing turbulent intensity. As a result, it is proposed that the sum of these two stretch rates plays a key role in flame extinction.

AB - Effects of flame stretch and flame curvature on the extinction of turbulent premixed flames in a stagnation point flow have been studied experimentally. A lean propane/air mixture has been used. The bulk stretch rate was varied from 15 s−1 to 60 s−1, while the turbulent intensity of velocity fluctuation in the approach flow was varied up to 0.6 m/s. In the near extinction limits, the local stretch rate was estimated by measuring the mean centerline velocity with LDV and the local flame curvature was measured by using the laser tomographic method. The local stretch rate decreases, while the stretch rate due to the local flame curvature increases with increasing turbulent intensity. As a result, it is proposed that the sum of these two stretch rates plays a key role in flame extinction.

KW - Combustion

KW - Extinction

KW - Flame Curvature

KW - Flame Stretch

KW - Laser Tomography

KW - Premixed Combustion

KW - Stagnation Point Flow

KW - Turbulent Flow

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ER -

Extinction of Lean Propane/Air Turbulent Premixed Flames in a Stagnation Point Flow

Abstract

Keywords

ASJC Scopus subject areas

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