Plasma assisted combustion : Interaction of a flat flame with a nanosecond dielectric barrier discharge plasma

A.H.E. Elkholy; J.A. van Oijen; L.P.H. de Goey

Plasma assisted combustion : Interaction of a flat flame with a nanosecond dielectric barrier discharge plasma

A.H.E. Elkholy, J.A. van Oijen, L.P.H. de Goey

Research output: Contribution to conference › Poster › Academic

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Abstract

Using of non-equilibrium Plasma-assisted for ignition, combustion and high speed flow applications are rapidly developing in the last decades due to its ability to produce a large amount of radicals and excited species. Which has a great potential in flame stabilization and emission control. Although many studies have demonstrated the effectiveness of plasma to enhance combustion properties, the detailed enhancement mechanism is still highly unknown. Toward a better understanding of the flame behavior under plasma effect, a one dimensional flame structure setup integrated with a non-thermal plasma source has been designed.

Original language	English
Pages	62-63
Publication status	Published - 2016

Keywords

Plasma assisted combustion
DBD microplasma

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title = "Plasma assisted combustion : Interaction of a flat flame with a nanosecond dielectric barrier discharge plasma",

abstract = "Using of non-equilibrium Plasma-assisted for ignition, combustion and high speed flow applications are rapidly developing in the last decades due to its ability to produce a large amount of radicals and excited species. Which has a great potential in flame stabilization and emission control. Although many studies have demonstrated the effectiveness of plasma to enhance combustion properties, the detailed enhancement mechanism is still highly unknown. Toward a better understanding of the flame behavior under plasma effect, a one dimensional flame structure setup integrated with a non-thermal plasma source has been designed.",

keywords = "Plasma assisted combustion, DBD microplasma",

author = "A.H.E. Elkholy and {van Oijen}, J.A. and {de Goey}, L.P.H.",

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AU - Elkholy, A.H.E.

AU - van Oijen, J.A.

AU - de Goey, L.P.H.

PY - 2016

Y1 - 2016

N2 - Using of non-equilibrium Plasma-assisted for ignition, combustion and high speed flow applications are rapidly developing in the last decades due to its ability to produce a large amount of radicals and excited species. Which has a great potential in flame stabilization and emission control. Although many studies have demonstrated the effectiveness of plasma to enhance combustion properties, the detailed enhancement mechanism is still highly unknown. Toward a better understanding of the flame behavior under plasma effect, a one dimensional flame structure setup integrated with a non-thermal plasma source has been designed.

AB - Using of non-equilibrium Plasma-assisted for ignition, combustion and high speed flow applications are rapidly developing in the last decades due to its ability to produce a large amount of radicals and excited species. Which has a great potential in flame stabilization and emission control. Although many studies have demonstrated the effectiveness of plasma to enhance combustion properties, the detailed enhancement mechanism is still highly unknown. Toward a better understanding of the flame behavior under plasma effect, a one dimensional flame structure setup integrated with a non-thermal plasma source has been designed.

KW - Plasma assisted combustion

KW - DBD microplasma

M3 - Poster

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EP - 63

ER -