Two models of porous structures were used to calculate the amount of capill
ary-condensed and film liquids as a function of relative vapor pressure in
the surrounding medium. Pore size distribution was set by the parabolic fun
ction characterized by two parameters, namely, the mean pore size, and the
distribution width. The first model was represented by the set of cylindric
al capillaries where the formation of a capillary condensate occurs due to
the capillary instability of the wetting films on an inner concave capillar
y surface. The second model was represented by the system of flat slots wit
h various widths. In this case, films coalesce due to the dispersion forces
of attraction. The influence of the parameters of the distribution and the
shape of pores on the calculated isotherms of capillary and film condensat
ion was monitored. It was shown that capillary condensation hysteresis is p
ossible not only due to the specific pore shape or pore blocking, but can a
lso be realized in the system of straight smooth pores.