Le Borne, SabineSabineLe BorneShahmuradyan, LusineLusineShahmuradyan2020-02-182020-02-182016-10-01Applied Numerical Mathematics (108): 1-20 (2016-10-01)http://hdl.handle.net/11420/4955In several production processes, the distribution of particles dispersed in an environmental phase may be mathematically described by the solution of population balance equations. We are concerned with the development of efficient numerical techniques for the aggregation process: It invokes an integral term that is usually numerically expensive to evaluate and often dominates the total simulation cost. We describe an approach on locally refined nested grids to evaluate both the source and the sink terms in almost linear complexity (instead of quadratic complexity resulting from a direct approach). The key is to switch from a nodal to a wavelet basis representation of the density function. We illustrate the numerical performance of this approach, both in comparison to a discretization of piecewise constant functions on a uniform grid as well as to the fixed pivot method on a geometric grid.en0168-92742016120AggregationFast wavelet transformationLocally refined nested gridsPopulation balance equationMathematikJournal Article10.1016/j.apnum.2016.02.009Other