Comparison of TR-LII sizing for pure carbon and hydrogen-containing carbon particles
In: Laser-induced Incandescence: Quantitative Interpretation, Modelling, Applications / Suntz, Rainer; Bockhorn, Henning (Eds.). - 2nd International Discussion Meeting and Workshop Laser-induced Incandescence: Quantitative Interpretation, Modelling, Applications, 2-4 August 2006, Bad Herrenalb, Germany - Aachen: RWTH Aachen, 2006 - (CEUR Workshop Proceedings ; 211)
2006book article/chapter in ProceedingsOA Gold
Mechanical EngineeringFaculty of Engineering » Maschinenbau und Verfahrenstechnik » Institute for Energy and Materials Processes (EMPI)
Title in English:
Comparison of TR-LII sizing for pure carbon and hydrogen-containing carbon particles
Author:
Eremin, A.;Falchenko, M.;Gurentsov, E.;Kock, Boris FerdinandUDE
- LSF ID
- 48750
- Other
- connected with university
- GND
- 1148037985
- LSF ID
- 48807
- ORCID
-
0000-0002-6879-4826
- Other
- connected with university
Open Access?:
OA Gold
Note:
OA platinum
Language of text:
English
Appears in
Laser-induced Incandescence: Quantitative Interpretation, Modelling, Applications
Conference
2nd International Discussion Meeting and Workshop Laser-induced Incandescence: Quantitative Interpretation, Modelling, Applications, 2-4 August 2006, Bad Herrenalb, Germany
Editor:
Suntz, Rainer;Bockhorn, Henning
Place of publication:
Aachen
Publisher:
RWTH Aachen
Year of publication:
2006
ISSN
ZDB ID
WWW URL:
Abstract in English:
Time-Resolved LII (TiRe-LII) particle sizing was performed for the pure carbon particles and for the particles holding some amount of hydrogen. These particles were formed from supersaturated carbon vapor and from carbon vapor with the addition of hydrogen atoms, by the laser photolysis of C3O2 or C3O2+H2S. The current particle sizes were measured by TiRe-LII, while the final count median diameter of particles and the particle size distribution were analyzed by Transmission Electron Microscopy (TEM). The value of thermal accommodation coefficient for argon at the carbon-hydrogen particle surface was extracted by the comparison of TiRe-LII particle sizing with the TEM data and was found to be 0.3.