The sorption characteristics of aluminosilicate microspheres of fly ash from thermal power plants with respect to heavy metal ions were studied with a view to their subsequent use for integrated treatment of household and industrial wastewater. The mechanism and kinetics of the sorption of total iron ions from aqueous solutions are studied, quantitative characteristics of the sorption capacity and adsorption equilibrium constants are obtained. It has been established that aluminosilicate microspheres of fly ash possess sorption properties with respect to common iron ions. The sorption isotherm of iron ions from water by the material under study is characteristic of microporous sorbents. The quantitative characteristics of the sorption process allow us to conclude about the possibility of using aluminosilicate fly ash microspheres without any additional treatment for the purification of waste water from heavy metal ions.
The results of research of sorption characteristics of natural mineral material – marsh ferromanganese ore are presented. Indicators of physical properties and mechanical strength, specific surface area of grains of ore samples were determined. The high efficiency of extraction of manganese and iron ions from underground waters by this natural material without the use of additional reagents is revealed. The kinetics of the sorption process was studied. It is shown that the extraction of manganese and iron ions from water solutions by marsh ferromanganese ore proceeds by a sorption-catalytic mechanism. For each ion, the values of the sorption capacity of the sorbent, the sorption equilibrium constants, and the kinetic parameters of the sorption process are calculated.
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