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W2783120084 endingPage "410" @default.
W2783120084 startingPage "401" @default.
W2783120084 abstract "Non-Steroidal Anti-Inflammatory Drugs (NSAIDs) are ubiquitous municipal wastewater pollutants of which several are resistant to degradation in conventional wastewater treatment, and represent a major environmental health concern worldwide. An alternative treatment, the bio-electro-Fenton process, has received increasing attention in past years. In this process the strong oxidant HO is formed using the electrons derived from bacterial oxidation of organic substrate. In this work, a laboratory scale microbial electrolysis cell based bio-electro-Fenton process was developed for the treatment of four different NSAIDs. The system was demonstrated to remove low concentration NSAIDs from water and wastewater and all tested parameters (cathode pH, cathode air-flow, cathode Fe2+ concentration, applied voltage, NSAIDs concentration and reaction time) were found to affect the apparent first order rate constant and removal efficiency for NSAIDs. Optimum parameter values were found to be pH = 2, Fe+2 = 7.5 mM, air-flow = 8 mL min−1, applied voltage = 0.3 V; the apparent rate constant was higher for higher NSAIDs initial concentration. For reaction times of 5 h removal efficiencies were 59–61% for Ketoprofen, 87–97% for Diclofenac, 80–86% for Ibuprofen and 75–81% for Naproxen. Prolonged reaction times lead to substantial increase in removal efficiencies for Ketoprofen and Naproxen. Finally results obtained with real wastewater show lower removal rate constants than with distilled water matrices suggesting interference from wastewater components in the NSAIDs oxidation process. The results offer insight into future developments of an efficient platform for wastewater treatment technology targeting micropollutants." @default.
W2783120084 created "2018-01-26" @default.
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W2783120084 date "2018-04-01" @default.
W2783120084 modified "2023-10-10" @default.
W2783120084 title "Bio-electro-Fenton process for the degradation of Non-Steroidal Anti-Inflammatory Drugs in wastewater" @default.
W2783120084 cites W1965222604 @default.
W2783120084 cites W1967384168 @default.
W2783120084 cites W1968110591 @default.
W2783120084 cites W1971134969 @default.
W2783120084 cites W1975229041 @default.
W2783120084 cites W1978939228 @default.
W2783120084 cites W1979289882 @default.
W2783120084 cites W1980042175 @default.
W2783120084 cites W1980950024 @default.
W2783120084 cites W1987036515 @default.
W2783120084 cites W1988040354 @default.
W2783120084 cites W1990009831 @default.
W2783120084 cites W1993822075 @default.
W2783120084 cites W1994256910 @default.
W2783120084 cites W1998180391 @default.
W2783120084 cites W2000873209 @default.
W2783120084 cites W2002400401 @default.
W2783120084 cites W2004990838 @default.
W2783120084 cites W2010728741 @default.
W2783120084 cites W2014808889 @default.
W2783120084 cites W2015630589 @default.
W2783120084 cites W2015756925 @default.
W2783120084 cites W2015846473 @default.
W2783120084 cites W2016016302 @default.
W2783120084 cites W2021458052 @default.
W2783120084 cites W2024495965 @default.
W2783120084 cites W2024799261 @default.
W2783120084 cites W2029928056 @default.
W2783120084 cites W2035082878 @default.
W2783120084 cites W2035688417 @default.
W2783120084 cites W2038324483 @default.
W2783120084 cites W2038654781 @default.
W2783120084 cites W2041755565 @default.
W2783120084 cites W2042134094 @default.
W2783120084 cites W2042657941 @default.
W2783120084 cites W2046178564 @default.
W2783120084 cites W2051256929 @default.
W2783120084 cites W2053322034 @default.
W2783120084 cites W2056557176 @default.
W2783120084 cites W2056620761 @default.
W2783120084 cites W2057632121 @default.
W2783120084 cites W2058010120 @default.
W2783120084 cites W2060642913 @default.
W2783120084 cites W2065674283 @default.
W2783120084 cites W2065748009 @default.
W2783120084 cites W2066352262 @default.
W2783120084 cites W2067381778 @default.
W2783120084 cites W2069563927 @default.
W2783120084 cites W2070881412 @default.
W2783120084 cites W2072515981 @default.
W2783120084 cites W2079675279 @default.
W2783120084 cites W2080034286 @default.
W2783120084 cites W2080273856 @default.
W2783120084 cites W2080761353 @default.
W2783120084 cites W2084094902 @default.
W2783120084 cites W2084708460 @default.
W2783120084 cites W2089099347 @default.
W2783120084 cites W2094441114 @default.
W2783120084 cites W2113708052 @default.
W2783120084 cites W2141716262 @default.
W2783120084 cites W2161406081 @default.
W2783120084 cites W2166883130 @default.
W2783120084 cites W2219036906 @default.
W2783120084 cites W2267808288 @default.
W2783120084 cites W2277269877 @default.
W2783120084 cites W2324779159 @default.
W2783120084 cites W2342032081 @default.
W2783120084 cites W2411661994 @default.
W2783120084 cites W2440772948 @default.
W2783120084 cites W2460287767 @default.
W2783120084 cites W2467727323 @default.
W2783120084 cites W24780624 @default.
W2783120084 cites W2525940004 @default.
W2783120084 cites W2552365552 @default.
W2783120084 cites W2570749221 @default.
W2783120084 cites W2606744336 @default.
W2783120084 cites W2709090031 @default.
W2783120084 cites W329370835 @default.
W2783120084 cites W372164497 @default.
W2783120084 cites W824407044 @default.
W2783120084 cites W883125052 @default.
W2783120084 doi "https://doi.org/10.1016/j.cej.2018.01.014" @default.
W2783120084 hasPublicationYear "2018" @default.
W2783120084 type Work @default.
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