[en] Most mesoporous materials of practical interest are inherently disordered, which has a significant impact on the condensation and evaporation of vapours in their pores. Traditionally, the effect of disorder is theoretically analyzed in a perturbative approach whereby slight elements of disorder (constriction, corrugation) are added to geometrically ideal pores. We propose an alternative approach, which consists of using a stochastic geometrical model to describe both the porous material and the condensate within the pores. This is done through a multiphase generalisation of the standard Gaussian random field model of disordered materials. The model parameters characterising the condensate provide a low-dimensional approximation of its configuration space, and we use a Derjaguin–Broekhoff–de Boer approximation to calculate the free-energy landscape. Our analysis notably questions the existence of vapour-like metastable states in realistically disordered mesoporous materials. Beyond capillary condensation, our general methodology is applicable to a broad array of confined phenomena.
Disciplines :
Physics Chemical engineering
Author, co-author :
Gommes, Cédric ; Université de Liège - ULiège > Department of Chemical Engineering > Department of Chemical Engineering
Roberts, Anthony; University of Queensland
Language :
English
Title :
Stochastic analysis of capillary condensation in disordered mesopores
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