Article
Heat and Mass Transfer and Physical Gasdynamics
2008. V. 46. № 3. P. 400–405
Karasevich Yu.K., Kozhuhov S.A., Posvyanskii V.S., Sun V.M.
Oxide particle size distribution function in combustion of aluminum: Quasi-steady approximation
The size distribution function for oxide particles formed in combustion of aluminum is calculated in a quasi-steady approximation. It is demonstrated that the quasi-steady approximation may be employed for aluminum particles sized $15$ to $300$ $\mu$m. It is observed that the conditions of combustion (temperature, pressure, oxidizer content, and size of aluminum powder particles) have a weak effect on the parameters of distribution function. The results of calculations of the parameters of oxide particles formed as a result of combustion of aluminum powder are compared with the parameters of particles formed after explosion of an explosive containing aluminum powder.
Article reference:
Karasevich Yu.K., Kozhuhov S.A., Posvyanskii V.S., Sun V.M. Oxide particle size distribution function in combustion of aluminum: Quasi-steady approximation, High Temp., 2008. V. 46. № 3. P. 400
Karasevich Yu.K., Kozhuhov S.A., Posvyanskii V.S., Sun V.M. Oxide particle size distribution function in combustion of aluminum: Quasi-steady approximation, High Temp., 2008. V. 46. № 3. P. 400