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Efficient Treatment of Phosphonate-Laden Wastewater by CaO<sub>2</sub>/UV: Partial Oxidation, Complexation, and Coprecipitation

Shaopeng Zhang, Bingnan Song, Zhengshuo Zhan, Yanbiao Liu, Xu Zhao, Guo‐Ping Sheng, Yang Lei

2024ACS ES&T Water12 citationsDOI

Abstract

Unlike the case for inorganic phosphate (P i ), removing organic phosphorus (P o ) is more challenging. Conventional methods for removing P o involve a two-step route, where P o is first converted to P i by an advanced oxidation process, followed by subsequent chemical precipitation/coagulation. Here, we propose a one-step CaO 2 /UV method for simultaneous conversion and coprecipitation of phosphonates, a representative type of organic phosphorus compound. We discovered that the total P removal (82.0%) is much higher than the conversion efficiency of P o to P i (26.7%) under a dose of 1.5 mM CaO 2 and 4 h UV irradiation for nitrilotris-methylene phosphonic acid (NTMP) treatment, providing new directions for treating P o compounds without completely breaking down the molecular structure. We further found that a CaO 2 /P o molar ratio of 1.5 is ideal for inducing the partial breakdown of the NTMP structure, Ca-phosphate formation, and coprecipitation of NTMP and its degradation intermediates. Beyond that, we noted that the presence of Ca 2+ enhances the reactivity of NTMP with hydroxyl radicals, as supported by the improved conversion efficiency of P o to P i, i.e., 37.4% vs 9.1% under pH i 11. We also demonstrated the preliminary feasibility of the CaO 2 /UV system in treating the reverse osmosis concentrate. Our study offers a robust one-step approach and sheds new insights on the synergistic role of partial oxidation, complexation, and coprecipitation in dealing with phosphonate-laden wastewater.

Topics & Concepts

CoprecipitationPhosphonateWastewaterChemistryInorganic chemistryNuclear chemistryEnvironmental chemistryEnvironmental scienceOrganic chemistryEnvironmental engineeringPhosphorus and nutrient managementAdvanced oxidation water treatmentArsenic contamination and mitigation
Efficient Treatment of Phosphonate-Laden Wastewater by CaO<sub>2</sub>/UV: Partial Oxidation, Complexation, and Coprecipitation | Litcius