Search CORE

5 research outputs found

Development of temperature imaging using two-line atomic fluorescence

Author: Afzelius
Aldén
Alkemade
Atakan
Bessler
Bonczyk
Burns
Burns
Cattolica
Dec
Delichatsios
Dockery
Engström
Haraguchi
Haraguchi
Hartlieb
Haudiquert
Haynes
Hoffman
Hofmann
Hult
Joklik
Kaminski
Kearney
Kronemayer
Lee
Mansurov
Miller
Nygren
Sansonetti
Seitzman
Shaddix
Tamura
Wieschnowsky
Winge
Publication venue: 'The Optical Society'
Publication date: 01/01/2009
Field of study

This work aims to advance understanding of the coupling between temperature and soot. The ability to image temperature using the two-line atomic fluorescence (TLAF) technique is demonstrated. Previous TLAF theory is extended from linear excitation into the nonlinear fluence regime. Nonlinear regime two-line atomic fluorescence (NTLAF) provides superior signal and reduces single-shot uncertainty from 250 K for conventional TLAF down to 100 K. NTLAF is shown to resolve the temperature profile across the stoichiometric envelope for hydrogen, ethylene, and natural gas flames, with deviation from thermocouple measurements not exceeding 100 K, and typically ≲30 K. Measurements in flames containing soot demonstrate good capacity of NTLAF to exclude interferences that hamper most two-dimensional thermometry techniques.Paul R. Medwell, Qing N. Chan, Peter A. M. Kalt, Zeyad T. Alwahabi, Bassam B. Dally, and Graham J. Natha

Adelaide Research & Scholarship

OH and soot concentration measurements in a high-temperature laminar diffusion flame

Author: Cessou A.
Coppalle A.
Haudiquert M.
Stepowski D.
Publication venue: Elsevier
Publication date: 01/12/1997
Field of study

International audienc

HAL - Normandie Université

Large Eddy Simulations of a Sooting Lifted Turbulent Jet-Flame

Author: Donnet J. B.
Eberle C.
Eberle C.
Fuchs N. A.
Haudiquert M.
Mehta R. S.
Oertel H.
Slavinskaya N. A.
Publication venue: 'American Institute of Aeronautics and Astronautics (AIAA)'
Publication date: 01/01/2017
Field of study

Institute of Transport Research:Publications

Detailed modelling of soot oxidation by O2 and OH in laminar diffusion flames

Author: Alfè
Ali Khosousi
Appel
Balthasar
Blanquart
Bradley
Celnik
Chernov
Dasch
Dobbins
Dworkin
Eaves
El-Leathy
Faccinetto
Fenimore
Frenklach
Friedlander
Garo
Guo
Harris
Haudiquert
Haynes
Homann
Kazakov
Kennedy
Lee
Liu
Liu
Mauss
Megaridis
Megaridis
Nagle
Neoh
Park
Puri
Raj
Roth
Santoro
Santoro
Seth Benjamin Dworkin
Singh
Smooke
Teini
Vander Wal
Veshkini
Von Gersum
Wang
Whitesides
Woods
Xu
Xu
Xu
Publication venue: 'Elsevier BV'
Publication date: 01/01/2015
Field of study

Numerical modelling of soot formation and oxidation in laminar coflow non-smoking and smoking ethylene diffusion flames

Author: Bradley D
Brookes S J
Chan M L
Ezekoye O A
Fairweather M
Fengshan Liu
Fenimore C P
Frenklach M
Frenklach M
Frenklach M
Garo A
Glassman I
Gregory Smallwood
Guo H
Haudiquert M
Hongsheng Guo
Kaplan C R
Kee R J
Kee R J
Kennedy I M
Kent J H
Kuo K K
Lee W
Leung K M
Levendis Y A
Liu F
Liu F
Liu Z
Megaridis C M
Megaridis C M
Moss J B
Nagle J
Neoh K G
omer Gulder
Patankar S V
Puri R
Roth P
Santoro R J
Smooke M D
Snelling D R
Thurgood C P
Truelove J S
Publication venue: 'IOP Publishing'
Publication date
Field of study

core

core