Closure of non-integer moments arising in multiphase flow phenomena

In this paper we consider closure problem for non-integer moments of form 〈xp〉,p∈R which are encountered in the moment evolution equations of many multiphase flow systems involving polydispersed particles, heat and mass transfer, chemical reactions, agglomeration or break-up. Two different categories of methods are considered: the first method is based on the reconstruction of the underlying PDF using Laguerre polynomials and the other is based on the direct calculation of non-integer moments using the fractional derivatives of moment generating function (MGF). By applying the results of fractional calculus an explicit equation is derived to express non-integer moments as a function of any arbitrary number of integer moments. The proposed methods are tested on several highly non-Gaussian analytical PDFs in addition to experimental agglomeration data and direct numerical simulation of fluid–particle turbulent multiphase flows.

► In this paper we consider closure problem for non-integer moments for Eulerian particle systems.
► Laguerre polynomials and fractional derivatives of the moment generating function are used and compared.
► Both methods can be considered general with the latter method possessing more desirable properties.