NMR imaging is employed to study the preparation of supported catalysts and
a number of mass transport processes in porous catalysts and sorbents. It
is shown that, similar to Pt, adsorbed Pd leads to the increase of the rela
xation times of liquids permeating porous alumina supports. A faster penetr
ation of adsorbed water into the sorbent is observed when water vapor sorpt
ion by selective water sorbents is carried out under vacuum as compared to
the sorption from moist air. An interruption of the capillary flow of water
within the monolithic catalyst is shown to lead to a non-uniform drying al
ong the monolith channels. Flow imaging of water inflowing into the monolit
h has revealed a complicated flow pattern characterized by the existence of
counterflows in the entrance region. (C) 2001 Elsevier Science Inc. All ri
ghts reserved.