SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2755306464> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2755306464 endingPage "19" @default.
W2755306464 startingPage "11" @default.
W2755306464 abstract "Abstract In this work, a novel advanced oxidation process (AOP) by the combination of ferrate (Fe(VI)) and sulfite for the treatment of recalcitrant contaminants was proposed and verified by experiments. The results showed that sulfite could significantly enhance the transformation of an emerging contaminant N,N-diethyl-3-toluamide (DEET) (a widely used insect repellent) by Fe(VI) (e.g., ∼78% of DEET lost within 10 s), whereas DEET showed negligible reactivity with Fe(VI) alone. Sulfate radical (SO4 −) was demonstrated to be the primary active species in the Fe(VI)/sulfite system based on the radical scavenging experiments and electron paramagnetic resonance (EPR) experiments. The reaction pathway involving hydroxylation, de-alkylation, and alkylic-oxidation was proposed on the basis of the detected products. The degradation efficiency of DEET in the Fe(VI)/sulfite system was closely related to dosages of sulfite and Fe(VI), the initial concentration of DEET, and solution pH. The presence of humic acid (HA), Cl− and HCO3−/CO32− distinctly inhibited the transformation of DEET due to their quenching effect on SO4 −. The effectiveness of DEET removal in real waters by a combined use of Fe(VI) and sulfite was also confirmed." @default.
W2755306464 created "2017-09-25" @default.
W2755306464 creator A5002352268 @default.
W2755306464 creator A5002360271 @default.
W2755306464 creator A5003784224 @default.
W2755306464 creator A5004375357 @default.
W2755306464 creator A5012485939 @default.
W2755306464 creator A5013689701 @default.
W2755306464 creator A5040295597 @default.
W2755306464 creator A5043943446 @default.
W2755306464 creator A5085186808 @default.
W2755306464 creator A5089589390 @default.
W2755306464 date "2018-02-01" @default.
W2755306464 modified "2023-10-17" @default.
W2755306464 title "The combination of ferrate(VI) and sulfite as a novel advanced oxidation process for enhanced degradation of organic contaminants" @default.
W2755306464 cites W1969626978 @default.
W2755306464 cites W1984182687 @default.
W2755306464 cites W1984305883 @default.
W2755306464 cites W1984508890 @default.
W2755306464 cites W1999287990 @default.
W2755306464 cites W2009264413 @default.
W2755306464 cites W2017313611 @default.
W2755306464 cites W2027499971 @default.
W2755306464 cites W2028458824 @default.
W2755306464 cites W2040462175 @default.
W2755306464 cites W2046665959 @default.
W2755306464 cites W2050827101 @default.
W2755306464 cites W2051335290 @default.
W2755306464 cites W2056748024 @default.
W2755306464 cites W2057956799 @default.
W2755306464 cites W2058079588 @default.
W2755306464 cites W2067281334 @default.
W2755306464 cites W2068794704 @default.
W2755306464 cites W2069139385 @default.
W2755306464 cites W2075537217 @default.
W2755306464 cites W2076616923 @default.
W2755306464 cites W2076980456 @default.
W2755306464 cites W2079149657 @default.
W2755306464 cites W2084149753 @default.
W2755306464 cites W2086101801 @default.
W2755306464 cites W2094636176 @default.
W2755306464 cites W2112740377 @default.
W2755306464 cites W2133048666 @default.
W2755306464 cites W2207387449 @default.
W2755306464 cites W2208083189 @default.
W2755306464 cites W2218991269 @default.
W2755306464 cites W2232848834 @default.
W2755306464 cites W2298645391 @default.
W2755306464 cites W2313995138 @default.
W2755306464 cites W2315458864 @default.
W2755306464 cites W2317600852 @default.
W2755306464 cites W2323086949 @default.
W2755306464 cites W2324202036 @default.
W2755306464 cites W2335221168 @default.
W2755306464 cites W2412679844 @default.
W2755306464 cites W2413402613 @default.
W2755306464 cites W2517747795 @default.
W2755306464 cites W2520780033 @default.
W2755306464 cites W2554643484 @default.
W2755306464 cites W2565589777 @default.
W2755306464 cites W2606193103 @default.
W2755306464 cites W2625495698 @default.
W2755306464 doi "https://doi.org/10.1016/j.cej.2017.09.082" @default.
W2755306464 hasPublicationYear "2018" @default.
W2755306464 type Work @default.
W2755306464 sameAs 2755306464 @default.
W2755306464 citedByCount "130" @default.
W2755306464 countsByYear W27553064642018 @default.
W2755306464 countsByYear W27553064642019 @default.
W2755306464 countsByYear W27553064642020 @default.
W2755306464 countsByYear W27553064642021 @default.
W2755306464 countsByYear W27553064642022 @default.
W2755306464 countsByYear W27553064642023 @default.
W2755306464 crossrefType "journal-article" @default.
W2755306464 hasAuthorship W2755306464A5002352268 @default.
W2755306464 hasAuthorship W2755306464A5002360271 @default.
W2755306464 hasAuthorship W2755306464A5003784224 @default.
W2755306464 hasAuthorship W2755306464A5004375357 @default.
W2755306464 hasAuthorship W2755306464A5012485939 @default.
W2755306464 hasAuthorship W2755306464A5013689701 @default.
W2755306464 hasAuthorship W2755306464A5040295597 @default.
W2755306464 hasAuthorship W2755306464A5043943446 @default.
W2755306464 hasAuthorship W2755306464A5085186808 @default.
W2755306464 hasAuthorship W2755306464A5089589390 @default.
W2755306464 hasConcept C107872376 @default.
W2755306464 hasConcept C111919701 @default.
W2755306464 hasConcept C112570922 @default.
W2755306464 hasConcept C127413603 @default.
W2755306464 hasConcept C161790260 @default.
W2755306464 hasConcept C178790620 @default.
W2755306464 hasConcept C179104552 @default.
W2755306464 hasConcept C185592680 @default.
W2755306464 hasConcept C18903297 @default.
W2755306464 hasConcept C2778217819 @default.
W2755306464 hasConcept C2779679103 @default.
W2755306464 hasConcept C2779830873 @default.
W2755306464 hasConcept C2993759403 @default.
W2755306464 hasConcept C39432304 @default.