Abstract—This paper reports a numerical investigation of an
impinging diffusion flame on the pollutant emission for tree
hydrocarbon fuels characteristics. The effects of the wall plate,
the nozzle diameter, the Reynolds number on both thermal and
prompt NO production. This work based on the Pre PDF
simulation and K Epsilon models for study the reactive
turbulent flow spreading on the lateral wall. We found that
when the temperature increases the production of thermal NO
increase, the NO production is more influenced by the
hydrocarbon fuels.
Index Terms—Simulation, combustion, diffusion flames,
interaction, turbulent, NOx production.
N. Ghiti and A Alhalim Bentebbiche are with Laboratoire de Mécanique
Avancée – LMA, B.P: 32 Elia, 16111, Bab-Ezzouar, Alger (e-mail :
ghitinadjib@yahoo.fr)
S. Hanchi is with Laboratoire de Mécanique des Fluides, EMP, BP 17,
Bordj El Bahri, Alger
[PDF]
Cite:Nadjib Ghiti, Abed Alhalim Bentebbiche, and Samir Hanchi, "Impinging Diffusion Flame and NO Production," International Journal of Engineering and Technology vol. 5, no. 3, pp. 345-348, 2013.