Pharmaceuticals removal from natural water by nanofiltration combined with advanced tertiary treatments (solar photo-Fenton, photo-Fenton-like Fe(III)–EDDS complex and ozonation)

“…Fe was maintained in solution for longer in the absence of carbonates. This is in accordance with the behavior observed by Miralles-Cuevas et al [15] 7 )). This is important because it suggests that the action of Fe(III)-EDDS in natural water containing carbonates is not related to Fenton chemistry at all, and that addition of H 2 O 2 is wasteful, generating HO that will be immediately scavenged.…”

“…They have also been shown to negatively affect the stability of Fe(III)-EDDS. In water stripped of carbonates and absence of H 2 O 2 , total iron (predominantly complexed as Fe-EDDS À ) has been shown to be stable for more than 2 h at pH values up to 9, while in carbonated water precipitation was observed at pH >7 [15].…”

Benefits and limitations of using Fe(III)-EDDS for the treatment of highly contaminated water at near-neutral pH

“…Fe was maintained in solution for longer in the absence of carbonates. This is in accordance with the behavior observed by Miralles-Cuevas et al [15] 7 )). This is important because it suggests that the action of Fe(III)-EDDS in natural water containing carbonates is not related to Fenton chemistry at all, and that addition of H 2 O 2 is wasteful, generating HO that will be immediately scavenged.…”

“…They have also been shown to negatively affect the stability of Fe(III)-EDDS. In water stripped of carbonates and absence of H 2 O 2 , total iron (predominantly complexed as Fe-EDDS À ) has been shown to be stable for more than 2 h at pH values up to 9, while in carbonated water precipitation was observed at pH >7 [15].…”

Benefits and limitations of using Fe(III)-EDDS for the treatment of highly contaminated water at near-neutral pH

“…The most common HR-AOPs are based on the photolysis of hydrogen peroxide (UV-H 2 O 2 process) or in the combination of a semiconductor photocatalyst (e.g., TiO 2 or iron oxides) with an oxidant (e.g., oxygen or hydrogen peroxide) and UV radiation; this is the case of TiO 2 -photocatalysis 4 and the photo-Fenton reaction. The powerful hydroxyl radical generated are able to oxidize a large variety of organic compounds [9,10] and inactivate a wide range of microorganisms [11,12].…”

Treatment of winery wastewater by sulphate radicals: HSO 5 − /transition metal/UV-A LEDs

“…As a matter of fact, a review by Rahim Pouran et al (2015) shows that most of the photo-Fenton applications that can be found in literature refer to the treatment of high-strength organic wastewaters. However, photo-Fenton has also showed good performances in the removal of micropollutants and CECs (Miralles-Cuevas et al 2014;Villegas-Guzman et al 2017).…”

A novel modeling approach for a generalizable photo-Fenton-based degradation of organic compounds