Resumen
The paper determined the influence of inorganic substances and high-molecular organic compounds on the decomposition of diclofenac, ibuprofen, and carbamazepine in the process of photocatalysis conducted with the presence of Titanium dioxide (TiO2). It was determined that the presence of such ions as
CO
3
2
-
CO
3
2
-
,
HCO
3
-
HCO
3
-
,
HPO
4
2
-
HPO
4
2
-
as well as
SO
4
2
-
SO
4
2
-
inhibited the decomposition of carbamazepine, whereas the efficiency of diclofenac degradation was decreased only by the presence of
CO
3
2
-
CO
3
2
-
and
HCO
3
-
HCO
3
-
anions. In case of ibuprofen sodium salt (IBU), all investigated anions influenced the increase in its decomposition rate. The process of pharmaceutical photooxidation conducted in suspensions with Al3+ and Fe3+ cations was characterized by a significantly decreased efficiency when compared to the solution deprived of inorganic compounds. The addition of Ca2+, Mg2+ and NH4+ affected the increase of reaction rate constant value of diclofenac and ibuprofen decomposition. On the other hand, high molecular organic compounds present in the model effluent additionally catalysed the degradation process of pharmaceutical compounds and constituted an additional sorbent that enabled to decrease their concentration. Toxicological analysis conducted in deionized water with pharmaceutical compounds? patterns proved the production of by-products from oxidation and/or reduction of micropollutants, which was not observed for model effluent irradiation.