Ma. Vandrunen et al., BARIUM-SULFATE PRECIPITATION - CRYSTALLIZATION KINETICS AND THE ROLE OF THE ADDITIVE PMA-PVS, Particle & particle systems characterization, 13(5), 1996, pp. 313-321
Citations number
15
Categorie Soggetti
Materials Science, Characterization & Testing","Engineering, Chemical
The precipitation of barium sulfate was investigated by photon correla
tion spectroscopic (PCS) measurements of the growing crystals combined
with electrical conductivity measurements of the mother solution. Sma
ll silica seeds (36 nm) were added to the solution. Therefore, heterog
eneous nucleation did not take place on the walls and on the stirrer,
which is usually the case, but on the seeds. Hence the growth of the c
rystals which had nucleated on the seeds could be studied by PCS. In o
rder to avoid the ill-conditioned inversion of the measured raw data,
the autocorrelation functions, a population balance model was used to
calculate these functions with the help of a kinetic model taken from
the literature. The measured and the calculated autocorrelation functi
ons should coincide and adjustable parameters were found from a least-
squares fit. The measurements revealed that nucleation is strongly enh
anced by PMA-PVS (polymaleic acid-polyvinylsulfonic acid). However, a
simple model which assumes Langmuir adsorption of PMA-PVS on the cryst
al surface did not describe the kinetics very well. The nucleation rat
e in the absence of the additive was found to be J=1.3 . 10(10) exp(-2
7/ln(2)S) [m(-3)s(-1)], while the growth rate was G=2.6 . 10(-8)(S-1)S
-2/3(1/3) exp(-29/3 ln S) [m s(-1)]. These results match results taken
from the literature fairly well.