Experimental Transfer Function of Acoustically Perturbed Bunsen-type Flame

V.N. Kornilov; K.R.A.M. Schreel; L.P.H. Goey, de

Experimental Transfer Function of Acoustically Perturbed Bunsen-type Flame

V.N. Kornilov
, K.R.A.M. Schreel
, L.P.H. Goey, de

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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Abstract

to acoustic velocity excitation are presented. Influence of flow rate and equivalence ratio as well as burner tube diameter, wall thickness, wall material and tube opening geometry on flame TF behaviour is discussed. A function for an empirical TF representation is proposed. Correlations between the parameters of the TF and flame/flow/burner parameters are derived. The physical mechanisms of TF formation are analyzed.

Original language	English
Title of host publication	Proceedings of the European Combustion Meeting 2005
Place of Publication	Belgium, Louvain-la-Neuve
Pages	Paper-188
Publication status	Published - 2005

Cite this

@inproceedings{aa2f8c1f9d8849249a7ce4d1a17c7b5c,

title = "Experimental Transfer Function of Acoustically Perturbed Bunsen-type Flame",

abstract = "to acoustic velocity excitation are presented. Influence of flow rate and equivalence ratio as well as burner tube diameter, wall thickness, wall material and tube opening geometry on flame TF behaviour is discussed. A function for an empirical TF representation is proposed. Correlations between the parameters of the TF and flame/flow/burner parameters are derived. The physical mechanisms of TF formation are analyzed.",

author = "V.N. Kornilov and K.R.A.M. Schreel and \{Goey, de\}, L.P.H.",

year = "2005",

language = "English",

pages = "Paper--188",

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

}

TY - GEN

T1 - Experimental Transfer Function of Acoustically Perturbed Bunsen-type Flame

AU - Kornilov, V.N.

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

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

PY - 2005

Y1 - 2005

N2 - to acoustic velocity excitation are presented. Influence of flow rate and equivalence ratio as well as burner tube diameter, wall thickness, wall material and tube opening geometry on flame TF behaviour is discussed. A function for an empirical TF representation is proposed. Correlations between the parameters of the TF and flame/flow/burner parameters are derived. The physical mechanisms of TF formation are analyzed.

AB - to acoustic velocity excitation are presented. Influence of flow rate and equivalence ratio as well as burner tube diameter, wall thickness, wall material and tube opening geometry on flame TF behaviour is discussed. A function for an empirical TF representation is proposed. Correlations between the parameters of the TF and flame/flow/burner parameters are derived. The physical mechanisms of TF formation are analyzed.

M3 - Conference contribution

SP - Paper-188

BT - Proceedings of the European Combustion Meeting 2005

CY - Belgium, Louvain-la-Neuve

ER -

Experimental Transfer Function of Acoustically Perturbed Bunsen-type Flame

Abstract

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