Publikacje

Abstract:

Studies on changes of unfrozen water content in calcium bentonite from Slovakia, with
various concentrations of copper ions, were carried out using the method of differential scanning
calorimetry (DSC). In this study, the influence of molar concentration of copper(II) chloride solution
(1 M, 0.5 M, 0.25 M, 0.1 M), used to saturate clay, was analyzed, as well as the impact of copper
ions contained in bentonite and how the copper concentration affects to changes of unfrozen water
content versus temperature. The results suggest that new mineral phases originate in bentonite
saturated with highly concentrated solutions due to the reaction with copper(II) chloride solutions.
These minerals, identified based on XRD and SEM-EDS (X-ray Diffraction and Scanning Electron
Microscopy with Energy Dispersive Spectroscopy) studies, are from the atacamite group. ANOVA
(Analysis of Variance) has shown a statistically significant relationship between the unfrozen water
content and the molar concentration of the solution used to saturate bentonite and between the
unfrozen water content and the content of copper ions in the bentonite. The analysis of multiple
regression has shown that the change of unfrozen water content in copper bentonites is related to the
temperature change, specific surface, and the concentration of copper ions in the clay. An empirical
equation was developed to estimate the content of unfrozen water at a given negative temperature in
Cu-bentonites, in which the specific surface and copper ions concentration in the bentonite are the
main parameters.

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The Effect of the Concentration of Copper Ions on the Unfrozen Water Content in Bentonites Measured with the Use of DSC Method