Pınar, ZehraDutta, AbhishekBeny, GuidoÖziş, Turgut2022-05-112022-05-1120150304-4289https://doi.org/10.1007/s12043-014-0838-yhttps://hdl.handle.net/20.500.11776/7385This paper presents an effective analytical simulation to solve population balance equation (PBE), involving particulate aggregation and breakage, by making use of appropriate solution(s) of associated complementary equation via auxiliary equation method (AEM). Travelling wave solutions of the complementary equation of a nonlinear PBE with appropriately chosen parameters is taken to be analogous to the description of the dynamic behaviour of the particulate processes. For an initial proof-of-concept, a general case when the number of particles varies with respect to time is chosen. Three cases, i.e. (1) balanced aggregation and breakage, (2) when aggregation can dominate and (3) breakage can dominate, are selected and solved for their corresponding analytical solutions. The results are then compared with the available analytical solution, based on Laplace transform obtained from literature. In this communication, it is shown that the solution approach proposed via AEM is flexible and therefore more efficient than the analytical approach used in the literature. © Indian Academy of Sciences.en10.1007/s12043-014-0838-yinfo:eu-repo/semantics/openAccessAggregationAuxiliary equation methodBreakageLaplace transformPopulation balanceAgglomerationCoal breakageLaplace transformsAnalytical approachAnalytical simulationsAuxiliary equation methodParticulate aggregationParticulate processPopulation balance equationPopulation balancesTravelling wave solutionNonlinear equationsAnalytical solution of population balance equation involving aggregation and breakage in terms of auxiliary equation methodArticle8419212-s2.0-84920989735Q2