Abstract:
The effect of the normal acceleration ($g$-load) on formation of agglomerates and their distribution function is examined within the framework of the statistical model of aluminum agglomeration. A parametric study of aluminum agglomeration with different values of normal $g$-loads is performed. The theory developed predicts a new effect, namely, a nonmonotonic dependence of the mean-mass size of agglomerates leaving the burning surface on the magnitude of normal $g$-loads: with increasing $g$-load, the mean-mass size of agglomerates can increase if the $g$-loads are low or moderate and decrease if the $g$-loads are high; in the latter case, the size distribution of agglomerates becomes less spread and more stable.
Keywords:composite propellant, combustion, aluminum agglomeration, statistical simulation, Monte Carlo method, distribution function, mean-mass size.
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