Study on Factors Affecting Shape Characteristics of Spherically Propagating i-C8H18/O2/N2 Turbulent Flames Using Constant Volume Vessel

Yukihide Nagano; Akihiro Tsuda; Akira Noomo; Takuya Fukushima; Masayoshi Morita; Toshiaki Kitagawa

doi:10.1299/jmsesdm.2017.9.B313

Study on Factors Affecting Shape Characteristics of Spherically Propagating i-C8H18/O2/N2 Turbulent Flames Using Constant Volume Vessel

Yukihide Nagano, Akihiro Tsuda, Akira Noomo, Takuya Fukushima, Masayoshi Morita, Toshiaki Kitagawa

Combustion

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

Abstract

Combustion enhancement is necessary for the improvement of thermal efficiency of spark ignition engines operated under lean and high EGR rate conditions. It is important to understand the interaction of turbulence and flame in order to enhance the combustion by the turbulence. The flame front area is considered to be one of the most dominant factor for turbulent burning velocity. The shape of turbulent flame can be characterized by fractal characteristics and the flame front area can be estimated using fractal characteristics. In this study, turbulent iso-octane/O2/N2 flames were investigated under N2 diluted conditions and elevated pressure conditions using a constant volume vessel. The shape characteristics of spherically propagating premixed turbulent iso-octane/O2/N2 flames were evaluated by fractal analysis. Influences of turbulent properties and flame properties on fractal characteristics, such as fractal dimension and inner-cutoff scale were investigated.

Original language	English
Pages (from-to)	B313
Journal	The Proceedings of the International symposium on diagnostics and modeling of combustion in internal combustion engines
Volume	2017
Issue number	0
DOIs	https://doi.org/10.1299/jmsesdm.2017.9.B313
Publication status	Published - 2017

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10.1299/jmsesdm.2017.9.B313

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Nagano, Y., Tsuda, A., Noomo, A., Fukushima, T., Morita, M., & Kitagawa, T. (2017). Study on Factors Affecting Shape Characteristics of Spherically Propagating i-C8H18/O2/N2 Turbulent Flames Using Constant Volume Vessel. The Proceedings of the International symposium on diagnostics and modeling of combustion in internal combustion engines, 2017(0), B313. https://doi.org/10.1299/jmsesdm.2017.9.B313

Study on Factors Affecting Shape Characteristics of Spherically Propagating i-C8H18/O2/N2 Turbulent Flames Using Constant Volume Vessel. / Nagano, Yukihide; Tsuda, Akihiro; Noomo, Akira et al.
In: The Proceedings of the International symposium on diagnostics and modeling of combustion in internal combustion engines, Vol. 2017, No. 0, 2017, p. B313.

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

Nagano, Y, Tsuda, A, Noomo, A, Fukushima, T, Morita, M & Kitagawa, T 2017, 'Study on Factors Affecting Shape Characteristics of Spherically Propagating i-C8H18/O2/N2 Turbulent Flames Using Constant Volume Vessel', The Proceedings of the International symposium on diagnostics and modeling of combustion in internal combustion engines, vol. 2017, no. 0, pp. B313. https://doi.org/10.1299/jmsesdm.2017.9.B313

Nagano Y, Tsuda A, Noomo A, Fukushima T, Morita M, Kitagawa T. Study on Factors Affecting Shape Characteristics of Spherically Propagating i-C8H18/O2/N2 Turbulent Flames Using Constant Volume Vessel. The Proceedings of the International symposium on diagnostics and modeling of combustion in internal combustion engines. 2017;2017(0):B313. doi: 10.1299/jmsesdm.2017.9.B313

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abstract = "Combustion enhancement is necessary for the improvement of thermal efficiency of spark ignition engines operated under lean and high EGR rate conditions. It is important to understand the interaction of turbulence and flame in order to enhance the combustion by the turbulence. The flame front area is considered to be one of the most dominant factor for turbulent burning velocity. The shape of turbulent flame can be characterized by fractal characteristics and the flame front area can be estimated using fractal characteristics. In this study, turbulent iso-octane/O2/N2 flames were investigated under N2 diluted conditions and elevated pressure conditions using a constant volume vessel. The shape characteristics of spherically propagating premixed turbulent iso-octane/O2/N2 flames were evaluated by fractal analysis. Influences of turbulent properties and flame properties on fractal characteristics, such as fractal dimension and inner-cutoff scale were investigated.",

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AB - Combustion enhancement is necessary for the improvement of thermal efficiency of spark ignition engines operated under lean and high EGR rate conditions. It is important to understand the interaction of turbulence and flame in order to enhance the combustion by the turbulence. The flame front area is considered to be one of the most dominant factor for turbulent burning velocity. The shape of turbulent flame can be characterized by fractal characteristics and the flame front area can be estimated using fractal characteristics. In this study, turbulent iso-octane/O2/N2 flames were investigated under N2 diluted conditions and elevated pressure conditions using a constant volume vessel. The shape characteristics of spherically propagating premixed turbulent iso-octane/O2/N2 flames were evaluated by fractal analysis. Influences of turbulent properties and flame properties on fractal characteristics, such as fractal dimension and inner-cutoff scale were investigated.

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Study on Factors Affecting Shape Characteristics of Spherically Propagating i-C8H18/O2/N2 Turbulent Flames Using Constant Volume Vessel

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