화학공학소재연구정보센터
Electrochimica Acta, Vol.197, 186-193, 2016
Electrochemical degradation of estrone using a boron-doped diamond anode in a filter-press reactor
Estrone (E1), an endocrine-disrupting chemical (EDC) with health and environmental consequences, is commonly found in wastewater worldwide; thus, effective ways to degrade this EDC are welcome. For the first time, a one-compartment filter-press reactor with a boron-doped diamond (BDD) anode is used in the electrochemical degradation of E1. The effect of the following variables on E1 degradation (monitored through LC/UV-vis) is investigated: flow rate (q(V)), current density (j), concentration [E1], pH, and absence or presence of Cl- ions in solution. The best degradation performance was attained under the following conditions, with total degradation of E1 (initial concentration, [E1](0) = 500 mu g L (1), in 0.1 mol L (1) Na2SO4; 0.5 L) in about 25 min: q(V) = 2.0 L min (1) (k(app) = 2.1 x 10 (3) s (1)), j = 10 mA cm (2), and pH <= 7. The addition of Cl- ions (0.36 mmol L (1)) to the E1 solution significantly enhances the rate of E1 degradation (independently of pH), to such an extent that only 10 min were needed to attain total degradation of E1. On the other hand, in the absence of Cl- ions in solution and at j = 10 mA cm (2), the decay of the relative concentration of E1 ([E1](rel)) does not depend on [E1] 0, as would be expected for processes limited by mass transport; this means that (OH)-O-center dot radicals are present in excess. Under optimized conditions, the performance attained with the BDD anode was compared with that with a beta-PbO2 anode; then, the higher oxidation power of the BDD anode became evident through its significantly better performance: a decay of [E1](rel) of about 98 % was attained in just 30 min, compared to only 35 % for the b-PbO2 anode after 60 min of electrolysis. (C) 2015 Elsevier Ltd. All rights reserved.