Modeling the reaction kinetics of Fenton’s process on the removal of atrazine

“…For this, the ratio of FR at 0.5 was selected in this study. Similar findings were found by Chan and Chu [27] working with atrazine in a batch reactor. Likewise, they point out that at a fixed FR ratio, the higher the [Fe 2+ ], the faster and higher the fraction of atrazine degradation that is observed.…”

Removal of ten pesticides from leaching water at pilot plant scale by photo-Fenton treatment

“…For this, the ratio of FR at 0.5 was selected in this study. Similar findings were found by Chan and Chu [27] working with atrazine in a batch reactor. Likewise, they point out that at a fixed FR ratio, the higher the [Fe 2+ ], the faster and higher the fraction of atrazine degradation that is observed.…”

Removal of ten pesticides from leaching water at pilot plant scale by photo-Fenton treatment

“…Referring to the Fenton process, it is well known that a higher hydrogen peroxide (oxidant) to pollutant molar ratio results in more thorough substrate degradation; while higher concentrations of ferrous iron (catalyst) yield kinetically faster oxidation rates [32]. As previously mentioned, Fenton's reagent is employed to produce sufficient quantities of OH to degrade organic substances (R) at diffusion limited rates (k R,OH ¼ 10 7 e10 10 M ÿ1 s ÿ1 ).…”

Acid dyebath effluent pretreatment using Fenton's reagent: Process optimization, reaction kinetics and effects on acute toxicity

“…[9][10][11] As a consequence, public concern has grown about the long-term environmental and health effects of such pollutants. [12,13] Many different techniques, including chlorination, [14] ozonation, [15] H 2 O 2 -promoted oxidation, [16] biological degradation, [17] Fenton oxidation, [18] radiolysis, [19] photocatalysis, [20] photosensitization, [21] and reduction, [22] have been attempted with questionable success to promote the degradation or elimination of these pollutants. A possible alternative is direct photodegradation, for which a number of studies on photoproducts have been performed, but little mechanistic information is available.…”

On the Low‐Lying Excited States of sym‐Triazine‐Based Herbicides