Pg. Smith et al., THE EFFECTS OF MODEL ORGANIC-COMPOUNDS ON GIBBSITE CRYSTALLIZATION FROM ALKALINE ALUMINATE SOLUTIONS - POLYOLS, Colloids and surfaces. A, Physicochemical and engineering aspects, 111(1-2), 1996, pp. 119-130
The crystallization of gibbsite from synthetic Bayer liquors is known
to be inhibited by compounds containing adjacent hydroxyl groups such
as the polyhydric alcohols or polyols. Complementary studies examining
the inhibition of gibbsite crystallization by polyols, and the intera
ction of the same compounds with aluminate ions in solution (by C-13 N
MR and Raman spectroscopy) have shown that the strongest inhibitors al
so complex aluminate under Bayer liquor conditions. By examining the m
ost likely conformations of metal-ligand complexes in solution, we are
able to make suggestions for the mechanism by which these compounds a
dsorb onto gibbsite seed and hence cause inhibition of crystallization
. Specifically, it has been found that the strongest polyol inhibitors
are able to form solution complexes with a single aluminium atom thro
ugh a particular conformation of three oxo bonds. It is proposed that
the inhibiting strength of polyols is related to the ease with which s
imilar connections are formed with aluminium sites on the surface of t
he gibbsite seed.