Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/63411
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Type: Conference paper
Title: Recent advances in measurement of turbulent reacting flows in which heat transfer is dominated by radiation
Author: Nathan, G.
Kalt, P.
Alwahabi, Z.
Dally, B.
Medwell, P.
Chan, Q.
Citation: Proceedings of 14th International Heat Transfer Conference (vol. 8), held in Washington DC, USA, 8-13 Aug 2010: Paper no. IHTC14-23422 pp. 775-793
Publisher: ASME
Publisher Place: USA
Issue Date: 2010
ISBN: 9780791849439
Conference Name: International Heat Transfer Conference (14th : 2010 : Washington DC, USA)
Statement of
Responsibility: 
G. J. Nathan, P. A. M. Kalt, Z. T. Alwahabi, B. B. Dally, P. R. Medwell and Q. N. Chan
Abstract: <jats:p>Recent advances in diagnostic methods are providing new capacity for detailed measurement of turbulent, reacting flows in which heat transfer is dominant. Radiation typically becomes dominant in flames containing soot and/or with sufficient physical size, so is important in many flames of practical significance. The presence of particles, including soot, increases the coupling between the turbulence, chemistry and radiative heat transfer processes. Particles also increase the difficulties of laser-based measurements by increasing the interferences to the signal and the attenuation of the beam. The paper reviews recent advances in techniques to measure temperature, mixture fraction, soot volume fraction, velocity, particle number density and the scattered, absorbed and transmitted components of radiation propagation through particle laden systems.</jats:p>
Rights: ©2010 ASME
RMID: 0020102976
DOI: 10.1115/IHTC14-23422
Appears in Collections:Mechanical Engineering publications
Environment Institute Leaders publications
Environment Institute publications

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