Title of article
Simplified model for droplet combustion in a slow convective flow
Author/Authors
Ackerman، M. نويسنده , , Williams، F.A. نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
384
From page
612
To page
995
Abstract
An idealized model for droplet vaporization or combustion in the Burke–Schumann reaction-sheet approximation is analyzed in terms of a Peclet number based on the Stefan velocity, taken to be of order unity, for Lewis numbers of unity and for small values of a parameter var (epsilon), defined as the ratio of the convective velocity far from the droplet to the Stefan velocity at its surface. Asymptotic solutions for the velocity, pressure, and mixture-fraction fields are obtained through second order in var (epsilon). The results are employed to calculate the effects of convection on the burning rate and on the flame shape. The prediction that the burning-rate constant increases linearly with var (epsilon) for small values of var (epsilon) is shown to be consistent with available experimental data. It is demonstrated that reasonable values of diffusivities provide approximate agreement of predicted burning rates and flame shapes with results of measurements.
Keywords
Shallow landslides , Peat , Peat slide , Bog burst , rainfall , Pore water pressures , Pipeflow
Journal title
Combustion and Flame
Serial Year
2005
Journal title
Combustion and Flame
Record number
102891
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