Numerical investigation on effects of fuel tube diameter and co-flow velocity in a methane/air non-premixed flame-Reference-Cited by-同舟云学术

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Numerical investigation on effects of fuel tube diameter and co-flow velocity in a methane/air non-premixed flame

Published:2020-01-09 Issue:5 Volume:56 Page:1697-1711
ISSN:0947-7411
Container-title:Heat and Mass Transfer
language:en
Short-container-title:Heat Mass Transfer

Author:

Soloklou Mohsen Nasiri,Golneshan Ali Akbar

Publisher

Springer Science and Business Media LLC

Subject

Fluid Flow and Transfer Processes,Condensed Matter Physics

Link

http://link.springer.com/content/pdf/10.1007/s00231-019-02805-9.pdf

Reference39 articles.

1. Bennett BAV, McEnally CS, Pfefferle LD, Smooke MD (2000) Computational and experimental study of axisymmetric coflow partially premixed methane/air flames. Combust Flame 123(4):522–546

2. Burke SP, Schumann TEW (1928) Diffusion flames. Ind Eng Chem 20(10):998–1004

3. Glassman I, Yetter RA, Glumac NG (2014) Combustion. Academic Press, Wyman Street,Waltham, MA 02451, USA

4. Ghosal S, Vervisch L (2001) Stability diagram for lift-off and blowout of a round jet laminar diffusion flame. Combust Flame 124(4):646–655

5. McEnally CS et al (2000) Characterization of a coflowing methane/air non-premixed flame with computer modeling, rayleigh-raman imaging, and on-line mass spectrometry. Proc Combust Inst 28(2):2063–2070

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