Abstract
The presence of emerging contaminant para-aminobenzoic acid (PABA) in the aquatic environment or drinking water has the potential to harm the aquatic ecosystem and human health. In this work, the removal of aqueous PABA by a compartmental electro-peroxone (E-peroxone) process was systematically investigated from the kinetic and mechanism viewpoints. The results suggest that single electrolysis or ozonation was inefficient in PABA elimination, and the combined E-peroxone yielded synergistic target pollutant degradation. Compared to the conventional E-peroxone oxidation, the sequential cathodic reactions, followed by anodic oxidations, improved the PABA removal efficiency from ~63.6% to ~89.5% at a 10-min treatment, and the corresponding pseudo first-order kinetic reaction rate constant increased from ~1.6 × 10−3 to ~3.6 × 10−3 s−1. Moreover, the response surface methodology (RSM) analysis indicated that the appropriate increase of inlet ozone concentration, applied current density, initial solution pH value, and solution temperature could accelerate the PABA degradation, while the excess of these operational parameters would have a negative effect on the treatment efficiency. The comparation tests revealed that the coupling of electrolysis and ozonation could synergistically produce hydroxyl radicals (HO•) and the separation of cathodic reactions and anodic oxidations further promoted the HO• generation, which was responsible for the enhancement of PABA elimination in the compartmental E-peroxone process. These observations imply that the compartmental E-peroxone process has the potential for aqueous micropollutants elimination, and the reaction conditions that favor the reactive oxygen species generation are critical for the treatment efficiency.
Highlights
Ultraviolet (UV) filters are emerging contaminants that have drawn extensive attention, due to their potential risks to ecosystems and human health [1,2,3]
Evidence has shown that Para-aminobenzoic acid (PABA) could increase the photosensitivity [5]
The removal of PABA from water and wastewater is of great importance
Summary
Ultraviolet (UV) filters are emerging contaminants that have drawn extensive attention, due to their potential risks to ecosystems and human health [1,2,3]. Para-aminobenzoic acid (PABA) is one of the most widely used UV filters. The removal of PABA from water and wastewater is of great importance. In the past few years, advanced oxidation processes (AOPs) have been investigated to remove PABA from water [6,7,8,9]. The single process usually has some shortcomings, such as high cost and inefficient treatment. Electro-peroxone (Eperoxone)—the combination of ozonation and electrolysis with a carbon-based cathode— has been recommended as an excellent water treatment technology with low cost and. Water 2021, 13, 2961 Water 2021, 13, 2961 tro-peroxone (E-peroxone)—the combination of ozonation and electrolysis with a carbon-based cathode—has been recommended as an excellent water treatment techn ooflo13gy with low cost and mild operating conditions [10]. E-pTerhoexoainme stroefatthmiesnsttuindyaqwueeroeu: s(1P)AEBvAalureamtinogvathl;e(2e)ffIencvtievsetnigeastsinogf caonmd poaprttimmeiznitnagl Eth-e peerfofexcotnseotfroepatemraetniotninalapqaureaomusetPeArsB(Ai.er.e,minolevtaol;z(o2n) Iencvoensctiegnattriantgioann,dapopptliimedizciunrgrethnet edfefnecstisty, ofinoiptiearlastoioluntailopnapraHm, eatnedrss(oi.leu.,tiionnletteomzopneeractounrec)enotnrattrieoant,maepnptlieefdficciuernrceyntbdyernessiptyo,ninseitisaulrsoflaucteiomneptHho,danoldosgoylu(RtiSoMn t)e; m(3p) eErlautcuirdea)toinngtrtehaetmpoensstiebflfiecoiexnidcyatbioynremspecohnasenissumrfsavceiamoextihdoadn-ts oldoegtyer(mRSinMa)t;io(3n) aEnludcitdhaetiirnggetnheeraptoiossnibpleatohxwidaaytsioannmaleycshisa.nisms via oxidants determination and their generation pathways analysis
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