Laser-induced incandescence and multi-line NO-LIF thermometry for soot diagnostics at high pressures
In: Laser-induced incandescence : Quantitative Interpretation, Modelling, Application / Schulz, Christof (Eds.). - International Bunsen Discussion Meeting and Workshop Laser-induced incandescence: Quantitative Interpretation, Modelling, Application, 25-28 September 2005, Duisburg, Germany - Aachen: RWTH Aachen, 2005 - (CEUR Workshop Proceedings ; 195), p. 22
2005book article/chapter in ProceedingsOA Gold
Mechanical EngineeringFaculty of Engineering » Maschinenbau und Verfahrenstechnik » Institute for Energy and Materials Processes (EMPI)
Title in English:
Laser-induced incandescence and multi-line NO-LIF thermometry for soot diagnostics at high pressures
Author:
Hofmann, M.;Kronemayer, H.;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, Application
Conference
International Bunsen Discussion Meeting and Workshop Laser-induced incandescence: Quantitative Interpretation, Modelling, Application, 25-28 September 2005, Duisburg, Germany
Editor:
Schulz, Christof
- ORCID
-
0000-0002-6879-4826
- LSF ID
- 48807
Place of publication:
Aachen
Publisher:
RWTH Aachen
Year of publication:
2005
in:
p. 22
ISSN
ZDB ID
WWW URL:
Abstract in English:
Laser-induced incandescence (LII) is investigated in laminar premixed flat ethylene/air flames at pressures up to 5 bar in a recently constructed high-pressure burner. Time-resolved LII signals were compared with a numerical model considering the influence of pressure on the LII signal decay. Peak particle temperatures after laser heat up were measured by the detection of the LII signal at two wavelengths. Laser-induced emission spectra enabled to check for interfering signals. Gas-phase temperatures were required to compare the LII signal decay with the model and were measured using multi-line NO-LIF thermometry.