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LASER-BASED INVESTIGATION OF SOOT FORMATION IN LAMINAR PREMIXED FLAMES AT ATMOSPHERIC AND ELEVATED PRESSURES

An experimental investigation into soot formation in laminar premixed flames at atmospheric and elevated pressures (1-5 bar) has been conducted. The flames were produced in a dual-flame burner enclosed in a pressure housing. Quantitative soot volume fraction measurements were obtained using laser-in...

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Published in:	Combustion science and technology 2005-10, Vol.177 (10), p.1835-1862
Main Authors:	TSURIKOV, M. S., GEIGLE, K. P., KRÜGER, V., SCHNEIDER-KÜHNLE, Y., STRICKER, W., LÜCKERATH, R., HADEF, R., AIGNER, M.
Format:	Article
Language:	English
Subjects:	Applied sciences CARS Combustion of gaseous fuels Combustion of liquid fuels Combustion. Flame elevated pressure Energy Energy. Thermal use of fuels Exact sciences and technology LII premixed flame soot volume fraction temperature Theoretical studies. Data and constants. Metering
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cited_by	cdi_FETCH-LOGICAL-c359t-3bad18bf7ff73c29a0c0b0d5be2dcec50bf9fd9505bb937f24b0e2fa678171b33
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container_title	Combustion science and technology
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creator	TSURIKOV, M. S. GEIGLE, K. P. KRÜGER, V. SCHNEIDER-KÜHNLE, Y. STRICKER, W. LÜCKERATH, R. HADEF, R. AIGNER, M.
description	An experimental investigation into soot formation in laminar premixed flames at atmospheric and elevated pressures (1-5 bar) has been conducted. The flames were produced in a dual-flame burner enclosed in a pressure housing. Quantitative soot volume fraction measurements were obtained using laser-induced incandescence coupled with a quasi-simultaneous absorption measurement for calibration; the data were corrected for signal trapping using an "onion peeling" algorithm. Temperature measurements were obtained using shifted vibrational coherent anti-Stokes Raman scattering, which yields well-resolved, accurate temperature measurements in sooting and nonsooting environments. Results are presented for stable homogeneous flames using air as oxidizer and ethylene, propylene, and toluene as fuels. The variation of soot volume fraction and temperature with height above burner and as a function of fuel, equivalence ratio, and pressure are presented and discussed. The present soot data are well represented by a first-order growth rate law. The data identify trends and features useful for the validation of numerical models of soot formation.
doi_str_mv	10.1080/00102200590970212
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S. ; GEIGLE, K. P. ; KRÜGER, V. ; SCHNEIDER-KÜHNLE, Y. ; STRICKER, W. ; LÜCKERATH, R. ; HADEF, R. ; AIGNER, M.</creator><creatorcontrib>TSURIKOV, M. S. ; GEIGLE, K. P. ; KRÜGER, V. ; SCHNEIDER-KÜHNLE, Y. ; STRICKER, W. ; LÜCKERATH, R. ; HADEF, R. ; AIGNER, M.</creatorcontrib><description>An experimental investigation into soot formation in laminar premixed flames at atmospheric and elevated pressures (1-5 bar) has been conducted. The flames were produced in a dual-flame burner enclosed in a pressure housing. Quantitative soot volume fraction measurements were obtained using laser-induced incandescence coupled with a quasi-simultaneous absorption measurement for calibration; the data were corrected for signal trapping using an "onion peeling" algorithm. Temperature measurements were obtained using shifted vibrational coherent anti-Stokes Raman scattering, which yields well-resolved, accurate temperature measurements in sooting and nonsooting environments. Results are presented for stable homogeneous flames using air as oxidizer and ethylene, propylene, and toluene as fuels. The variation of soot volume fraction and temperature with height above burner and as a function of fuel, equivalence ratio, and pressure are presented and discussed. The present soot data are well represented by a first-order growth rate law. The data identify trends and features useful for the validation of numerical models of soot formation.</description><identifier>ISSN: 0010-2202</identifier><identifier>EISSN: 1563-521X</identifier><identifier>DOI: 10.1080/00102200590970212</identifier><identifier>CODEN: CBSTB9</identifier><language>eng</language><publisher>London: Taylor & Francis Group</publisher><subject>Applied sciences ; CARS ; Combustion of gaseous fuels ; Combustion of liquid fuels ; Combustion. Flame ; elevated pressure ; Energy ; Energy. 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Temperature measurements were obtained using shifted vibrational coherent anti-Stokes Raman scattering, which yields well-resolved, accurate temperature measurements in sooting and nonsooting environments. Results are presented for stable homogeneous flames using air as oxidizer and ethylene, propylene, and toluene as fuels. The variation of soot volume fraction and temperature with height above burner and as a function of fuel, equivalence ratio, and pressure are presented and discussed. The present soot data are well represented by a first-order growth rate law. The data identify trends and features useful for the validation of numerical models of soot formation.</description><subject>Applied sciences</subject><subject>CARS</subject><subject>Combustion of gaseous fuels</subject><subject>Combustion of liquid fuels</subject><subject>Combustion. Flame</subject><subject>elevated pressure</subject><subject>Energy</subject><subject>Energy. Thermal use of fuels</subject><subject>Exact sciences and technology</subject><subject>LII</subject><subject>premixed flame</subject><subject>soot volume fraction</subject><subject>temperature</subject><subject>Theoretical studies. Data and constants. Metering</subject><issn>0010-2202</issn><issn>1563-521X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2005</creationdate><recordtype>article</recordtype><recordid>eNp1kN9LwzAQx4MoOH_8Ab7lRd-ql2RdF_Clzm4rdO1oq_hWkrSBSrdqMhH_ezM68UGE44773ud7B4fQFYFbAlO4AyBAKYDPgQdACT1CI-JPmOdT8nKMRvu55wB6is6sfXUtY5SMUJeERZR7Dy4_4jh9jooyXoRlnKU4m-Miy0o8z_LVoMQpTsJVnIY5XufRKn5xnrlTogKHpYtVVqyXUR7PcJg-4iiJnsPSIY4tiieXLtCJFp1tLg_1HD3No3K29JJsEc_CxFPM5zuPSVGTqdSB1gFTlAtQIKH2ZUNr1SgfpOa65j74UnIWaDqW0FAtJsGUBEQydo5uhr1vpn__aOyu2rRWNV0ntk3_YSvKJ5wH47EDyQAq01trGl29mXYjzFdFoNr_tfrzV-e5PiwXVolOG7FVrf01BmRPccfdD1y71b3ZiM_edHW1E19db35M7P8z33INgX4</recordid><startdate>20051001</startdate><enddate>20051001</enddate><creator>TSURIKOV, M. 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P.</au><au>KRÜGER, V.</au><au>SCHNEIDER-KÜHNLE, Y.</au><au>STRICKER, W.</au><au>LÜCKERATH, R.</au><au>HADEF, R.</au><au>AIGNER, M.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>LASER-BASED INVESTIGATION OF SOOT FORMATION IN LAMINAR PREMIXED FLAMES AT ATMOSPHERIC AND ELEVATED PRESSURES</atitle><jtitle>Combustion science and technology</jtitle><date>2005-10-01</date><risdate>2005</risdate><volume>177</volume><issue>10</issue><spage>1835</spage><epage>1862</epage><pages>1835-1862</pages><issn>0010-2202</issn><eissn>1563-521X</eissn><coden>CBSTB9</coden><abstract>An experimental investigation into soot formation in laminar premixed flames at atmospheric and elevated pressures (1-5 bar) has been conducted. The flames were produced in a dual-flame burner enclosed in a pressure housing. Quantitative soot volume fraction measurements were obtained using laser-induced incandescence coupled with a quasi-simultaneous absorption measurement for calibration; the data were corrected for signal trapping using an "onion peeling" algorithm. Temperature measurements were obtained using shifted vibrational coherent anti-Stokes Raman scattering, which yields well-resolved, accurate temperature measurements in sooting and nonsooting environments. Results are presented for stable homogeneous flames using air as oxidizer and ethylene, propylene, and toluene as fuels. The variation of soot volume fraction and temperature with height above burner and as a function of fuel, equivalence ratio, and pressure are presented and discussed. The present soot data are well represented by a first-order growth rate law. 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subjects	Applied sciences CARS Combustion of gaseous fuels Combustion of liquid fuels Combustion. Flame elevated pressure Energy Energy. Thermal use of fuels Exact sciences and technology LII premixed flame soot volume fraction temperature Theoretical studies. Data and constants. Metering
title	LASER-BASED INVESTIGATION OF SOOT FORMATION IN LAMINAR PREMIXED FLAMES AT ATMOSPHERIC AND ELEVATED PRESSURES
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