✦ LIBER ✦

The structure and stability of nonadiabatic flame balls: II. Effects of far-field losses

✍ Scribed by J.D. Buckmaster; G. Joulin; P.D. Ronney

Publisher: Elsevier Science
Year: 1991
Tongue: English
Weight: 655 KB
Volume: 84
Category: Article
ISSN: 0010-2180
DOI: 10.1016/0010-2180(91)90015-4

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✦ Synopsis

A theory of spherical premixed flames in which the only transport processes are diffusion and radiation ("flame balls") is extended to include the effects of heat loss from the far-field (unburned gas). Using matched asymptotic expansions for large activation energy, stationary solutions are constructed and an evolution equation for the radial motion of the flame is derived. Linear stability analyses are performed for both one-dimensional and threedimensional perturbations. It is shown that when far-field losses are included, the stability properties are qualitatively changed. A smaller range of conditions produces flames that are stable to one-dimensional disturbances and, in some cases, the linear growth rates are found to have imaginary components. Numerical integration of the evolution equation reveals oscillations (but not limit cycles), in agreement with a bifurcation analysis. The minimum flame-ball radius for which three-dimensional instabilities will occur is shown to depend only on the near-field losses, and becomes arbitrarily large as these losses are reduced.

NOMENCLATURE

B steric factor Cp specific heat activation energy F(T) near-field heat-loss function Fb F(Tb) G(T) far-field heat-loss function Le Lewis number Q heating value of mixture q volumetric heat loss term r radial coordinate R_z gas constant R s steady flame radius

R z

Zeldovich flame radius

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