Abstract
In water treatment technology, activated carbons are used primarily as sorbents to remove organic impurities, mainly natural organic matter, but also as catalysts in the ozonation process. Commercially available activated carbons are usually contaminated with mineral substances, classified into two main groups: alkali metals (Ca, Na, K, Li, Mg) and multivalent metals (Al, Fe, Ti, Si). The presence of impurities on the carbon surface significantly affects the pHpzc values determined for raw and ozonated carbon as well as their acidity and alkalinity. The scale of the observed changes strongly depends on the pH of the ozonated system, which is related to the diffusion of impurities from the carbon to the solution. In an acidic environment (pH 2.5 in this work), the ozone molecule is relatively stable, yet active carbon causes its decomposition. This is the first report that indirectly indicates that contaminants on the surface of activated carbon (multivalent elements) contribute to the breakdown of ozone towards radicals, while the process of ozone decomposition by purified carbons does not follow the radical path in bulk solution. Carbon impurities also change the distribution of the reaction products formed by organic pollutants ozonation, which additionally confirms the radical process. The study showed that the use of unpurified activated carbon in the ozonation of succinic acid (SA) leads to the formation of a relatively large amount of oxalic acid (OA), which is a product of radical SA degradation. On the other hand, in solutions with purified carbon, the amount of OA generated is negligible.
Highlights
Another important parameter characterizing activated carbons, and other catalysts used in the ozona‐ tion process, is the point of zero charge, generally described as the pH at which the net charge of the total material surface is equal to zero
The research analysed whether the processes involving active carbons take place on the carbon surface or in the bulk solution as well as what is the role of carbon contamination in the process
Mercially available activated carbons are more or less contaminated with mineral matter, which mainly consist of alkaline (Ca, K, Na, Li, Mg) and multivalent (Ti, Al, Fe, Si) elements in different ratios that are presented in[29]
Summary
Another important parameter characterizing activated carbons, and other catalysts used in the ozona‐ tion process, is the point of zero charge (pHpzc), generally described as the pH at which the net charge of the total material surface is equal to zero. The aim of this study was to show that the determined values of selected physico-chemical parameters of unpurified activated carbons may change during the ozonation and differ depending on the pH of the process. The results of the presented research have shown that the use of unpurified activated carbon in ozonation processes leads to the observation of “false” catalytic effects. This has been shown by the ozonation of succinic acid (SA) as an example. The radical course of the process in the presence of unpurified activated carbon was confirmed in experiments with tert-butyl alcohol (TBA)
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