Abstract
Four types of tourmalines (TMs, S1, S2, S3 and S4) for activating persulfate (PS) to degrade sulfamethazine (SMT) were compared to find the most efficient catalyst. The four TMs were mesoporous materials with abundant functional groups, but were different in terms of size, composition, specific surface area, contact angle, and zero potential point. The removal of SMT in S1, S2, S3 and S4 systems with PS at the optimum reaction conditions ([SMT]0 = 5 mg/L, [PS]0 = 4 mM, [TM]0 = 5 g/L, pH0 = 5, and T = 25 °C) were 99.0%, 25.5%, 26.0%, and 51.0%, respectively, which might be related to the metal content of TM. Although the degradation of SMT in the S1/PS/SMT system was not dominated by SO4•− and •OH, the radicals contributed to the SMT removal in the S2, S3, and S4 systems. 1O2 and holes both contributed to the degradation of SMT in the four systems. The metal at the X position might be related to the generation of 1O2 and holes, while Fe of TM was mainly related to the generation of free radicals, such as SO4•−. Electrochemical impedance spectroscopy tests confirmed that the separation of electrons and holes on the TM surface could be promoted by adding PS and SMT. S1 presented a higher electron-transfer rate than the other three TMs. The PS activation by TM with a high metal content at the X position provided an efficient and low-consumption treatment for antibiotic refractory wastewater.
Highlights
Tourmaline (TM) is a kind of annular silicate mineral with boron as the characteristic element
Four TMs were investigated in terms of their ability to activate PS to degrade SMT
The contact angles indicated that the four TMs were all hydrophilic and could contact well with the aqueous solution, being beneficial to the real wastewater treatment
Summary
Tourmaline (TM) is a kind of annular silicate mineral with boron as the characteristic element. Our previous studies on the activation of PS by TM have revealed part of the reaction mechanisms [8]; some mechanisms of the process, such as the influence of the metal at X position and the iron content on activating PS, remain unclear. Four kinds of TMs with different metal contents from different produces of origin were selected and denoted as S1, S2, S3 and S4. Sulfamethazine (SMT) as a common sulfonamide antibiotic has been commonly used in livestock production and widely exists in the environment [11–13]. It is used as the target contaminant in this study. SMT, investigate the influence of TM component on PS activation, and further disclose the reaction mechanisms of the TM/PS process
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