화학공학소재연구정보센터
Chemical Engineering Journal, Vol.368, 252-260, 2019
Sulfate radical induced degradation of beta(2)-adrenoceptor agonists salbutamol and Terbutaline: Implication of halides, bicarbonate, and natural organic matter
The presence of inorganic ions and organic matter in natural water would cause unpredictable consequence on the oxidation efficiency and pathways of sulfate radical (SO4 center dot-) based advanced oxidation process (SR-AOPs). In this study, the impacts of water constituents, namely, halides (including chloride (Cl-) and bromide (Br-)), bicarbonate (HCO3-) and natural organic matter (NOM) on SO4 center dot- induced degradation of salbutamol (SAL) and terbutaline (TBL) were evaluated systematically. Our results indicated that chloride exhibited no effect on oxidation efficiencies of SAL and TBL, while Br-, HCO3- and NOM all showed inhibitory effects. Specifically, the detrimental effect of bromide was mainly attributed to the scavenging of SO4 center dot- to form the less reactive species, Br-2(center dot-). By using laser flash photolysis (LFP), the second-order rate constants of Br-2(center dot-) with SAL and TBL were estimated to be 2.1 and 3.9x10(8)M(-1) s(-1), respectively, much smaller than those with SO4 center dot- (3.7x10(9)M(-1) s(-1) for SAL and 4.2x10(9)M(-1) s(-1) for TBL). Moreover, bromine addition products of SAL and TBL were detected in the presence of Br-, which were believed to be more toxic than the parent compounds. Similar to bromide, HCO3- could also quench SO4 center dot- to generate carbonate radical (CO3 center dot-), also less reactive than sulfate radical with SAL (4.8x10(7)M(-1) s(-1)) and TBL (3.2x10(8)M(-1) s(-1)). In the case of NOM, a light screening effect was regarded as the major factor responsible to the decrease of reaction rates, while sulfate