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Revista mexicana de física
versión impresa ISSN 0035-001X
Resumen
ALFONSO, L.; RAGA, G.B. y BAUMGARDNER, D.. Monte Carlo simulations of drop growth by coalescence and collision-induced breakup. Rev. mex. fis. [online]. 2009, vol.55, n.6, pp.437-442. ISSN 0035-001X.
A Monte Carlo framework to simulate the evolution of drop spectra by coalescence and collision-induced breakup is presented. The stochastic algorithm of Gillespie [1] for chemical reactions in the formulation proposed by Laurenzi and Diamond [2] was used to simulate the kinetic behavior of the drop population. Within Gillespie's framework, the collision-induced breakup process is modeled as a new "chemical reaction". The results of the Monte Carlo simulations were compared with the analytical solution to the collection-breakup equation obtained by Feingold et. al. [3], for an exponential distribution of satellite drops, and a constant collection and breakup kernels. A good correspondence between the analytical and the stochastic algorithm was found for this case.
Palabras llave : Cloud microphysics; Monte Carlo simulation; breakup process.