Kinetics and morphology of formed gypsum Original Research Article

Calcium sulfate dihydrate scale was electrochemically deposited from supersaturated solutions on gold electrodes (probe) of an electrochemical quartz crystal microbalance (QCM). From measurements of the induction period for the gypsum nucleation, the interfacial tension was calculated. The dependence of the induction period on temperature allowed determining the activation energy. From the dependence of the induction period on temperature and supersaturation, it was possible to distinguish between the homogeneous and heterogeneous nucleation mechanisms. It was also observed that the induction period depends highly on the lattice cation/anion molar ratio. This dependence is more important for the lower supersaturations. The critical size rc represents the minimum size of a stable nucleus. Particles smaller than rcc dissolve or evaporate and particles larger than rcc continue to grow. It was observed that rcc decreased with increasing temperature for the heterogeneous nucleation process, but it had a constant value for the homogeneous nucleation process. From the SEM photos, it was observed that long induction times allow the growth of larger crystals while a shorter induction period permits smaller crystals and that the lattice cation/anion molar ratio did not effect the size of the crystals that were formed. Finally, this work demonstrated that the QCM is a very attractive instrument to identify precipitation mechanisms and to measure the amount of deposited crystals.