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Measurements of the growth and coagulation of soot particles in a high-pressure shock tube

The advantage of well-defined experimental conditions in shock tubes has been used to investigate the growth and coagulation of soot particles at high pressures. The measurements have been made for fuel-rich oxidation and pyrolysis of different hydrocarbons behind the reflected shock at pressures be...

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Published in:	Combustion and flame 2000, Vol.120 (1), p.188-199
Main Authors:	Kellerer, H., Koch, R., Wittig, S.
Format:	Article
Language:	English
Subjects:	AIR POLLUTION Applied sciences CHEMICAL REACTION YIELD Combustion of gaseous fuels Combustion of liquid fuels Combustion. Flame Energy Energy. Thermal use of fuels ENVIRONMENTAL SCIENCES Exact sciences and technology FLOCCULATION GRAIN GROWTH HYDROCARBONS OXIDATION PARTICLE SIZE PYROLYSIS SOOT Theoretical studies. Data and constants. Metering
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cited_by	cdi_FETCH-LOGICAL-c531t-306dae4a4646333cac774b0c5f94bc20ac1bc398550237f99467ba7e3705fa8a3
cites	cdi_FETCH-LOGICAL-c531t-306dae4a4646333cac774b0c5f94bc20ac1bc398550237f99467ba7e3705fa8a3
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container_title	Combustion and flame
container_volume	120
creator	Kellerer, H. Koch, R. Wittig, S.
description	The advantage of well-defined experimental conditions in shock tubes has been used to investigate the growth and coagulation of soot particles at high pressures. The measurements have been made for fuel-rich oxidation and pyrolysis of different hydrocarbons behind the reflected shock at pressures between 10 and 60 bar and temperatures between 1500 and 2300 K. In addition to soot volume fraction, time-resolved scattering measurements yielded particle diameters and number densities; all these give insight into both surface growth and coagulation at enhanced pressures. The temperature behind the reflected shock was monitored by two-color pyrometry. Soot growth was characterized by induction periods and soot growth rates. At low final soot yields, the growth rate of soot depends on the square of the carbon concentration. At high soot yields, reduced growth rates of soot volume fraction were observed and can be attributed to a lack of growth species. At constant carbon concentration no pressure dependence of soot volume fraction could be found. Particle diameters between 15 and 40 nm were measured. The number density of particles was found to increase strongly with soot volume fraction. Calculated and measured particle number densities agree well during early soot growth. However, at longer times the experiments reveal coagulation rates which are significantly smaller than predicted. This behavior indicates that collisions of deactivated soot particles are characterized by sticking probabilities lower than unity. A correlation for the sticking probability has been established to match both the experimental results and calculations.
doi_str_mv	10.1016/S0010-2180(99)00067-X
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Karlsruhe (DE)</creatorcontrib><title>Measurements of the growth and coagulation of soot particles in a high-pressure shock tube</title><title>Combustion and flame</title><description>The advantage of well-defined experimental conditions in shock tubes has been used to investigate the growth and coagulation of soot particles at high pressures. The measurements have been made for fuel-rich oxidation and pyrolysis of different hydrocarbons behind the reflected shock at pressures between 10 and 60 bar and temperatures between 1500 and 2300 K. In addition to soot volume fraction, time-resolved scattering measurements yielded particle diameters and number densities; all these give insight into both surface growth and coagulation at enhanced pressures. The temperature behind the reflected shock was monitored by two-color pyrometry. Soot growth was characterized by induction periods and soot growth rates. At low final soot yields, the growth rate of soot depends on the square of the carbon concentration. At high soot yields, reduced growth rates of soot volume fraction were observed and can be attributed to a lack of growth species. At constant carbon concentration no pressure dependence of soot volume fraction could be found. Particle diameters between 15 and 40 nm were measured. The number density of particles was found to increase strongly with soot volume fraction. Calculated and measured particle number densities agree well during early soot growth. However, at longer times the experiments reveal coagulation rates which are significantly smaller than predicted. This behavior indicates that collisions of deactivated soot particles are characterized by sticking probabilities lower than unity. A correlation for the sticking probability has been established to match both the experimental results and calculations.</description><subject>AIR POLLUTION</subject><subject>Applied sciences</subject><subject>CHEMICAL REACTION YIELD</subject><subject>Combustion of gaseous fuels</subject><subject>Combustion of liquid fuels</subject><subject>Combustion. Flame</subject><subject>Energy</subject><subject>Energy. Thermal use of fuels</subject><subject>ENVIRONMENTAL SCIENCES</subject><subject>Exact sciences and technology</subject><subject>FLOCCULATION</subject><subject>GRAIN GROWTH</subject><subject>HYDROCARBONS</subject><subject>OXIDATION</subject><subject>PARTICLE SIZE</subject><subject>PYROLYSIS</subject><subject>SOOT</subject><subject>Theoretical studies. Data and constants. 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In addition to soot volume fraction, time-resolved scattering measurements yielded particle diameters and number densities; all these give insight into both surface growth and coagulation at enhanced pressures. The temperature behind the reflected shock was monitored by two-color pyrometry. Soot growth was characterized by induction periods and soot growth rates. At low final soot yields, the growth rate of soot depends on the square of the carbon concentration. At high soot yields, reduced growth rates of soot volume fraction were observed and can be attributed to a lack of growth species. At constant carbon concentration no pressure dependence of soot volume fraction could be found. Particle diameters between 15 and 40 nm were measured. The number density of particles was found to increase strongly with soot volume fraction. Calculated and measured particle number densities agree well during early soot growth. 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subjects	AIR POLLUTION Applied sciences CHEMICAL REACTION YIELD Combustion of gaseous fuels Combustion of liquid fuels Combustion. Flame Energy Energy. Thermal use of fuels ENVIRONMENTAL SCIENCES Exact sciences and technology FLOCCULATION GRAIN GROWTH HYDROCARBONS OXIDATION PARTICLE SIZE PYROLYSIS SOOT Theoretical studies. Data and constants. Metering
title	Measurements of the growth and coagulation of soot particles in a high-pressure shock tube
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