Lee, Ha-Won Jeong, Won-Gune Kim, Jong-Gook Baek, Kitae 2026-02-19T05:00:32Z 2026-02-19T05:00:32Z 2026-02-19 2026-04 0256-1115 https://pubs.kist.re.kr/handle/201004/154288 Peroxymonosulfate (PMS) alkaline activation has gained considerable interest in advanced oxidation processes for wastewater treatment due to its reduced secondary pollution, high economic efficiency, and strong degradation capability. This study hypothesized that a gradual increase in pH would improve and maintain the alkaline activation of PMS more than rapid pH shift. Magnesium peroxide (MgO2)-based PMS system was proposed to control the alkaline activation of PMS. Under equal molar dosage, the MgO2/PMS system removed 60.7% of acetaminophen (ACT), while NaOH/PMS and CaO2/PMS systems oxidized 43.3% and 18.2% of ACT, respectively. Although the initial reaction rate in CaO2/PMS system was faster than that in the MgO2/PMS system, the MgO2/PMS system ultimately demonstrated greater overall ACT removal, even with higher PMS consumption. These results indicate that MgO2-based gradual activation enhances pollutant removal and prolongs the persistence of reaction. Furthermore, the MgO2-PMS system showed less interference by co-existing anions, including Cl−, SO42−, NO3−, HCO3−, and HPO42−. In the system, singlet oxygen (1O2) and superoxide radical (O2˙) were the dominant reactive species responsible for degradation of ACT. In conclusion, the MgO2/PMS system proposed in this study is a promising alternative for wastewater treatment due to its simple process, efficient PMS utilization, high adaptability, and significantly enhanced pollutant removal via gradual alkaline activation. English 한국화학공학회 MgO2-Mediated Alkaline Activation of Peroxymonosulfate (PMS) for Acetaminophen Degradation Article 10.1007/s11814-026-00645-y 1 Korean Journal of Chemical Engineering, v.43, pp.1391 - 1401 Korean Journal of Chemical Engineering 43 1391 1401 N scie scopus kci 2-s2.0-105029388686 Chemistry, Multidisciplinary Engineering, Chemical Chemistry Engineering Article; Early Access OXIDATION PROCESS BASE ACTIVATION PERSULFATES REMOVAL Advanced oxidation process Peroxymonosulfate Alkaline activation Magnesium peroxide Acetaminophen