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Numerical simulation on soot deposition process in laminar ethylene diffusion flames under a microgravity condition Jae Hyuk Choi
The Journal of Mechanical Science and Technology, vol. 23, no. 3, pp.707-716, 2009
Abstract : A numerical study on soot deposition in ethylene diffusion flames has been conducted to elucidate the effect of
thermophoresis on soot particles under a microgravity environment. Time-dependent reactive-flow Navier-Stokes equations
coupled with the modeling of soot formation have been solved. The model was validated by comparing the simulation
results with the previous experimental data for a laminar diffusion flame of ethylene (C2H4) with enriched
oxygen (35% O2 + 65% N2) along a solid wall. In particular, the effect of surrounding air velocity as a major calculation
parameter has been investigated. Especially, the soot deposition length defined as the transverse travel distance to
the wall in the streamwise direction is introduced as a parameter to evaluate the soot deposition tendency on the wall.
The calculation result exhibits that there existed an optimal air velocity for the early deposition of soot on the surface,
which was in good agreement with the previous experimental results. The reason has been attributed to the balance
between the effects of the thermophoretic force and convective motion.
Keyword :
Diffusion flame; Soot deposition length; Thermophoresis; Microgravity
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