Non-intrusive temperature measurements using three-color laser-induced fluorescence

被引:0
|
作者
P. Lavieille
A. Delconte
D. Blondel
M. Lebouché
F. Lemoine
机构
[1] LEMTA—UMR 7563,
[2] DANTEC Dynamics,undefined
来源
Experiments in Fluids | 2004年 / 36卷
关键词
Optical Path; Temperature Sensitivity; Fluorescence Quantum Yield; Probe Volume; Normalize Temperature Profile;
D O I
暂无
中图分类号
学科分类号
摘要
This paper presents a new temperature measurement technique in a liquid, based on laser-induced fluorescence of rhodamine B. The fluorescence intensity is detected on three spectral bands, where the ratios between the emission of each band determine the temperature while correcting for the effects of fluorescent re-absorption. In addition, the influence of parameters such as probe volume size, dye concentration, and Beer’s absorption is removed. The principles of the technique are described in this paper, and the technique is demonstrated on a heated liquid jet studied under a constant and a spatially variable dye concentration.
引用
收藏
页码:706 / 716
页数:10
相关论文
共 50 条
  • [1] Non-intrusive temperature measurements using three-color laser-induced fluorescence
    Lavieille, P
    Delconte, A
    Blondel, D
    Lebouché, M
    Lemoine, F
    EXPERIMENTS IN FLUIDS, 2004, 36 (05) : 706 - 716
  • [2] Temperature measurements of binary droplets using three-color laser-induced fluorescence
    C. Maqua
    G. Castanet
    Fabrice Lemoine
    N. Doué
    G. Lavergne
    Experiments in Fluids, 2006, 40
  • [3] Temperature measurements of binary droplets using three-color laser-induced fluorescence
    Maqua, C
    Castanet, G
    Lemoine, F
    Doue, N
    EXPERIMENTS IN FLUIDS, 2006, 40 (05) : 786 - 797
  • [4] Microscale laser-induced fluorescence method for non-intrusive temperature measurement
    Chamarthy, Pramod
    Wereley, Steven T.
    Garimella, Suresh V.
    INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION 2007, VOL 11 PT A AND PT B: MICRO AND NANO SYSTEMS, 2008, : 827 - 834
  • [5] Non-intrusive temperature measurements for transient freezing in laminar internal flow using laser induced fluorescence
    Kaaks, Bouke Johannes
    Couweleers, Sebastian
    Lathouwers, Danny
    Kloosterman, Jan-Leen
    Rohde, Martin
    EXPERIMENTAL THERMAL AND FLUID SCIENCE, 2024, 155
  • [6] Using non-intrusive laser-induced fluorescence in the characterisation of mixing in an oscillatory baffled column
    Fitch, AW
    Ni, X
    JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY, 2003, 78 (2-3) : 326 - 331
  • [7] Remote and non-intrusive diagnostics of high-voltage insulation materials using laser-induced fluorescence spectroscopy
    Larsson, A
    Roslund, A
    Dernfalk, AD
    Gubanski, SM
    2001 ANNUAL REPORT CONFERENCE ON ELECTRICAL INSULATION AND DIELECTRIC PHENOMENA, 2001, : 428 - 431
  • [8] In-Situ Non-intrusive Diagnostics of Toluene Removal by a Gliding Arc Discharge Using Planar Laser-Induced Fluorescence
    Jinlong Gao
    Jiajian Zhu
    Andreas Ehn
    Marcus Aldén
    Zhongshan Li
    Plasma Chemistry and Plasma Processing, 2017, 37 : 433 - 450
  • [9] In-Situ Non-intrusive Diagnostics of Toluene Removal by a Gliding Arc Discharge Using Planar Laser-Induced Fluorescence
    Gao, Jinlong
    Zhu, Jiajian
    Ehn, Andreas
    Alden, Marcus
    Li, Zhongshan
    PLASMA CHEMISTRY AND PLASMA PROCESSING, 2017, 37 (02) : 433 - 450
  • [10] Laser-induced fluorescence for the non-intrusive diagnostics of a fuel droplet burning under microgravity in a drop shaft
    Matsumoto, K
    Fujii, T
    Suzuki, M
    Segawa, D
    Kadota, T
    MEASUREMENT SCIENCE AND TECHNOLOGY, 1999, 10 (10) : 853 - 858
12345