Comparison of Flame Transfer Functions acquired by Chemiluminescence and Density Fluctuation Measurements

Johannes Peterleithner; Riccardo Basso; Franz Heitmeir; Jakob Woisetschläger; Raimund Schlüßler; Jürgen Czarske; Andreas Fischer

Comparison of Flame Transfer Functions acquired by Chemiluminescence and Density Fluctuation Measurements

Johannes Peterleithner, Riccardo Basso, Franz Heitmeir, Jakob Woisetschläger, Raimund Schlüßler, Jürgen Czarske, Andreas Fischer

Publikation: Konferenzbeitrag › Paper › Begutachtung

Abstract

The goal of this study was to measure the Flame Transfer Function of a perfectly and a partially premixed turbulent flame by means of Laser Interferometric Vibrometry. For the first time, this technique is used to detect integral heat release fluctuations. The results were compared to classical OH*-chemiluminescence measurements. Effects of equivalence ratio waves and vortex rollup were found within those flames and were then investigated by means of time resolved planar CH*/OH*-chemiluminescence and Frequency modulated Doppler global velocimetry. This work is motivated by the difficulties chemiluminescence encounters when faced with partially premixed flames including equivalence ratio waves and flame stretching. LIV, recording the time derivative of the density fluctuations as line-of-sight data, is not affected by these flame properties.

Originalsprache	englisch
Publikationsstatus	Veröffentlicht - 2016
Veranstaltung	ASME Turbo Expo 2016 - Seoul, Seoul, Südkorea Dauer: 13 Juni 2016 → 17 Juni 2016

Konferenz

Konferenz	ASME Turbo Expo 2016
Land/Gebiet	Südkorea
Ort	Seoul
Zeitraum	13/06/16 → 17/06/16

Schlagwörter

Thermoakustik

Fields of Expertise

Sustainable Systems
Mobility & Production

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2016_GT2016-57485_PeterleithnerAkzeptiertes Autorenmanuskript, 3,4 MBLizenz: Andere

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title = "Comparison of Flame Transfer Functions acquired by Chemiluminescence and Density Fluctuation Measurements",

abstract = "The goal of this study was to measure the Flame Transfer Function of a perfectly and a partially premixed turbulent flame by means of Laser Interferometric Vibrometry. For the first time, this technique is used to detect integral heat release fluctuations. The results were compared to classical OH*-chemiluminescence measurements. Effects of equivalence ratio waves and vortex rollup were found within those flames and were then investigated by means of time resolved planar CH*/OH*-chemiluminescence and Frequency modulated Doppler global velocimetry. This work is motivated by the difficulties chemiluminescence encounters when faced with partially premixed flames including equivalence ratio waves and flame stretching. LIV, recording the time derivative of the density fluctuations as line-of-sight data, is not affected by these flame properties.",

keywords = "Thermoakustik, Thermoakustik",

author = "Johannes Peterleithner and Riccardo Basso and Franz Heitmeir and Jakob Woisetschl{\"a}ger and Raimund Schl{\"u}{\ss}ler and J{\"u}rgen Czarske and Andreas Fischer",

year = "2016",

language = "English",

note = "ASME Turbo Expo 2016 ; Conference date: 13-06-2016 Through 17-06-2016",

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TY - CONF

T1 - Comparison of Flame Transfer Functions acquired by Chemiluminescence and Density Fluctuation Measurements

AU - Peterleithner, Johannes

AU - Basso, Riccardo

AU - Heitmeir, Franz

AU - Woisetschläger, Jakob

AU - Schlüßler, Raimund

AU - Czarske, Jürgen

AU - Fischer, Andreas

PY - 2016

Y1 - 2016

N2 - The goal of this study was to measure the Flame Transfer Function of a perfectly and a partially premixed turbulent flame by means of Laser Interferometric Vibrometry. For the first time, this technique is used to detect integral heat release fluctuations. The results were compared to classical OH*-chemiluminescence measurements. Effects of equivalence ratio waves and vortex rollup were found within those flames and were then investigated by means of time resolved planar CH*/OH*-chemiluminescence and Frequency modulated Doppler global velocimetry. This work is motivated by the difficulties chemiluminescence encounters when faced with partially premixed flames including equivalence ratio waves and flame stretching. LIV, recording the time derivative of the density fluctuations as line-of-sight data, is not affected by these flame properties.

AB - The goal of this study was to measure the Flame Transfer Function of a perfectly and a partially premixed turbulent flame by means of Laser Interferometric Vibrometry. For the first time, this technique is used to detect integral heat release fluctuations. The results were compared to classical OH*-chemiluminescence measurements. Effects of equivalence ratio waves and vortex rollup were found within those flames and were then investigated by means of time resolved planar CH*/OH*-chemiluminescence and Frequency modulated Doppler global velocimetry. This work is motivated by the difficulties chemiluminescence encounters when faced with partially premixed flames including equivalence ratio waves and flame stretching. LIV, recording the time derivative of the density fluctuations as line-of-sight data, is not affected by these flame properties.

KW - Thermoakustik

M3 - Paper

T2 - ASME Turbo Expo 2016

Y2 - 13 June 2016 through 17 June 2016

ER -

Comparison of Flame Transfer Functions acquired by Chemiluminescence and Density Fluctuation Measurements

Abstract

Konferenz

Schlagwörter

Fields of Expertise

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