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W2047339945 startingPage "268" @default.
W2047339945 abstract "The homogeneous advanced oxidation process UV/H2O2, using UV radiation (λ = 254 nm) at low H2O2 concentration, was studied at bench scale for the treatment of secondary effluent spiked with atrazine. The transformation of the effluent organic matter in terms of its biodegradability, atrazine and dissolved organic carbon (DOC) removal was investigated. Hydroxyl radical (OH) scavenging and radiation scattering are discussed, along with a rough estimation of treatment costs in terms of energy requirements. The results demonstrated that an UV/H2O2 process at low H2O2 initial dose ([H2O2]0 = 5 mg L−1 and photonic flow = 14.9 μEinstein s−1) was effective in removing 100 μg L−1 of atrazine in secondary effluent, although hydroxyl radical scavenging was quantified at about 60% of the hydroxyl radical production. Effluent organic compounds were responsible for 85% of the total hydroxyl radical scavenging and for the 12-fold reduction of the atrazine removal rate. Moreover, the natural matrix affected directly the energy required by the lamps to produce OH, which increased more than tenfold in relation to deionized water. Low doses of H2O2 were unable to promote biodegradability increment in secondary effluents, although H2O2/DOC ratios over 3 achieved significant mineralization of effluent organic matter (higher than 50%). At a low H2O2 concentration, the system removes micropollutants without any significant modification of secondary effluents (SE) physic-chemical parameters. However, there will be less elimination of more recalcitrant micropollutants, due to the greater OH scavenging than when there are higher H2O2 dosages." @default.
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W2047339945 date "2014-02-01" @default.
W2047339945 modified "2023-09-27" @default.
W2047339945 title "Photochemical oxidation of municipal secondary effluents at low H2O2 dosage: Study of hydroxyl radical scavenging and process performance" @default.
W2047339945 cites W1608086260 @default.
W2047339945 cites W1940458729 @default.
W2047339945 cites W1964598883 @default.
W2047339945 cites W1966781382 @default.
W2047339945 cites W1968546791 @default.
W2047339945 cites W1969196992 @default.
W2047339945 cites W1974166461 @default.
W2047339945 cites W1980208529 @default.
W2047339945 cites W1982699842 @default.
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W2047339945 cites W1996818713 @default.
W2047339945 cites W2001643867 @default.
W2047339945 cites W2002162458 @default.
W2047339945 cites W2002644045 @default.
W2047339945 cites W2006047134 @default.
W2047339945 cites W2011870954 @default.
W2047339945 cites W2016204814 @default.
W2047339945 cites W2020517283 @default.
W2047339945 cites W2022155977 @default.
W2047339945 cites W2023149284 @default.
W2047339945 cites W2030854211 @default.
W2047339945 cites W2033612153 @default.
W2047339945 cites W2035689300 @default.
W2047339945 cites W2041322898 @default.
W2047339945 cites W2045723346 @default.
W2047339945 cites W2060913275 @default.
W2047339945 cites W2061651791 @default.
W2047339945 cites W2062654837 @default.
W2047339945 cites W2065832675 @default.
W2047339945 cites W2066137744 @default.
W2047339945 cites W2073998653 @default.
W2047339945 cites W2079254561 @default.
W2047339945 cites W2079675279 @default.
W2047339945 cites W2084669632 @default.
W2047339945 cites W2091151242 @default.
W2047339945 cites W2099671075 @default.
W2047339945 cites W2108769326 @default.
W2047339945 cites W21236508 @default.
W2047339945 cites W2129818293 @default.
W2047339945 cites W2143546017 @default.
W2047339945 cites W2143899637 @default.
W2047339945 cites W2151589421 @default.
W2047339945 cites W246191550 @default.
W2047339945 cites W2992310951 @default.
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W2047339945 doi "https://doi.org/10.1016/j.cej.2013.10.025" @default.
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