Hauptseite > Publikationsdatenbank > Instantaneous three-dimensional visualization of concentration distributions in turbulent flows with cross-plane laser-induced fluorescence imaging > print

001     44108
005     20180210142929.0
024 7 _ |2 DOI
|a 10.1007/s00340-004-1670-8
024 7 _ |2 WOS
|a WOS:000225524900019
024 7 _ |2 ISSN
|a 1432-0649
037 _ _ |a PreJuSER-44108
041 _ _ |a eng
082 _ _ |a 530
084 _ _ |2 WoS
|a Optics
084 _ _ |2 WoS
|a Physics, Applied
100 1 _ |a Hoffmann, A.
|b 0
|0 P:(DE-HGF)0
245 _ _ |a Instantaneous three-dimensional visualization of concentration distributions in turbulent flows with cross-plane laser-induced fluorescence imaging
260 _ _ |c 2005
|a Berlin
|b Springer
300 _ _ |a 125 - 131
336 7 _ |a Journal Article
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336 7 _ |a Journal Article
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336 7 _ |a ARTICLE
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336 7 _ |a JOURNAL_ARTICLE
|2 ORCID
336 7 _ |a article
|2 DRIVER
440 _ 0 |a Applied Physics B
|x 0946-2171
|0 8181
|y 1
|v 80
500 _ _ |a Record converted from VDB: 12.11.2012
520 _ _ |a A laser-based technique for measuring instantaneous three-dimensional species concentration distributions in turbulent flows is presented. The laser beam from a single laser is formed into two crossed light sheets that illuminate the area of interest. The laser-induced fluorescence (LIF) signal emitted from excited species within both planes is detected with a single camera via a mirror arrangement. Image processing enables the reconstruction of the three-dimensional data set in close proximity to the cutting line of the two light sheets. Three-dimensional intensity gradients are computed and compared to the two-dimensional projections obtained from the two directly observed planes. Volume visualization by digital image processing gives unique insight into the three-dimensional structures within the turbulent processes. We apply this technique to measurements of toluene-LIF in a turbulent, non-reactive mixing process of toluene and air and to hydroxyl (OH) LIF in a turbulent methane-air flame upon excitation at 248 nm with a tunable KrF excimer laser.
536 _ _ |a Chemie und Dynamik der Geo-Biosphäre
|c U01
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|0 G:(DE-Juel1)FUEK257
|x 0
588 _ _ |a Dataset connected to Web of Science
650 _ 7 |a J
|2 WoSType
700 1 _ |a Zimmermann, F.
|b 1
|0 P:(DE-HGF)0
700 1 _ |a Scharr, H.
|b 2
|u FZJ
|0 P:(DE-Juel1)129394
700 1 _ |a Krömker, S.
|b 3
|0 P:(DE-HGF)0
700 1 _ |a Schulz, C.
|b 4
|0 P:(DE-HGF)0
773 _ _ |0 PERI:(DE-600)1458437-2
|a 10.1007/s00340-004-1670-8
|g Vol. 80, p. 125 - 131
|p 125 - 131
|q 80<125 - 131
|t Applied physics / B
|v 80
|x 0946-2171
|y 2005
856 7 _ |u http://dx.doi.org/10.1007/s00340-004-1670-8
909 C O |o oai:juser.fz-juelich.de:44108
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913 1 _ |k U01
|v Chemie und Dynamik der Geo-Biosphäre
|l Chemie und Dynamik der Geo-Biosphäre
|b Environment (Umwelt)
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|x 0
914 1 _ |y 2005
915 _ _ |a JCR/ISI refereed
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915 _ _ |a DBCoverage
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|b Thomson Reuters Master Journal List
920 1 _ |k ICG-III
|l Phytosphäre
|d 31.12.2006
|g ICG
|0 I:(DE-Juel1)VDB49
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970 _ _ |a VDB:(DE-Juel1)62648
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980 _ _ |a I:(DE-Juel1)IBG-2-20101118
980 _ _ |a UNRESTRICTED
981 _ _ |a I:(DE-Juel1)IBG-2-20101118
981 _ _ |a I:(DE-Juel1)ICG-3-20090406

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