@ARTICLE{Szpaczyński_Janusz_A._Separation_2017, author={Szpaczyński, Janusz A. and White, Jeffrey A. and Côté, Caroline L.}, volume={vol. 38}, number={No 2}, journal={Chemical and Process Engineering}, pages={249-264}, howpublished={online}, year={2017}, publisher={Polish Academy of Sciences Committee of Chemical and Process Engineering}, abstract={These studies examined the concept of concentration and purification of several types of wastewater by freezing and thawing. The experiments demonstrated that freezing of contaminated liquid contributed to concentration of contaminants in solution as well as significant concentration and agglomeration of solid particles. A high degree of purification was achieved for many parameters. The results of comparative laboratory tests for single and multiple freezing are presented. It was found that there was a higher degree of concentration of pollutants in wastewater frozen as man-made snow than in bulk ice. Furthermore, the hypothesis that long storage time of liquid as snow and sufficient temperature gradient metamorphism allows for high efficiency of the concentration process was confirmed. It was reported that the first 30% of the melted liquid volume contained over 90% of all impurities. It gives great opportunities to use this method to concentrate pollutants. The results revealed that the application of this process in full scale is possible. Significant agglomeration of solid particles was also noted. Tests with clay slurry showed that repeated freezing and thawing processes significantly improve the characteristics of slurry for sedimentation and filtration.}, type={Artykuły / Articles}, title={Separation of Contaminants in The Freeze/Thaw Process}, URL={http://www.journals.pan.pl/Content/107726/PDF-MASTER/06-paper.pdf}, doi={10.1515/cpe-2017-0019}, keywords={freeze crystallization, snow metamorphism, landfill leachate, wastewater, sludge dewatering}, }