FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3034184487> ?p ?o ?g. }

• W3034184487 endingPage "114960" @default.
• W3034184487 startingPage "114960" @default.
• W3034184487 abstract "In this study, the distribution profiles, emission characteristics, and health risks associated with 43 volatile and semi-volatile organic compounds, including 15 phenols, 18 polycyclic aromatic hydrocarbons (PAHs), 6 BTEX, and 4 other compounds, were determined in the wastewater treatment plant (WWTP) of a coking factory (plant C) and the succeeding final WWTP (central WWTP). Total phenols with a concentration of 361,000 μg L−1 were the predominant compounds in the influent wastewater of plant C, whereas PAHs were the major compounds in the final effluents of both coking WWTPs (84.4 μg L−1 and 30.7 μg L−1, respectively). The biological treatment process in plant C removed the majority of volatile organic pollutants (94.1%–99.9%). A mass balance analysis for plant C showed that biodegradation was the main removal pathway for all the target compounds (56.6%–99.9%) except BTEX, chlorinated phenols, and high molecular weight (MW) PAHs. Chlorinated phenols and high MW PAHs were mainly removed via sorption to activated sludge (51.8%–73.2% and 60.2%–75.9%, respectively). Air stripping and volatilization were the dominant mechanisms for removing the BTEX compounds (59.8%–73.8%). The total emission rates of the detected volatile pollutants from plant C and the central WWTP were 1,640 g d−1 and 784 g d−1, respectively. Benzene from the equalization basins of plant C and the central WWTP corresponded to the highest inhalation carcinogenic risks (1.4 × 10−3 and 3.2 × 10−4, respectively), which exceeded the acceptable level for human health (1 × 10−6) recommended by the United States Environmental Protection Agency. The results showed that BaP exhibited the highest inhalation non-cancer risk, with a hazard index ratio of 70 and 30 for plant C and the central WWTP, respectively. Moreover, the excess sludge generated during wastewater treatment should also be carefully handled because it adsorbed abundant PAHs and chlorinated phenols at coking plant C (58,000 μg g−1 and 3,500 μg g−1) and the central WWTP (622 μg g−1 and 54 μg g−1)." @default.
• W3034184487 created "2020-06-19" @default.
• W3034184487 creator A5005404409 @default.
• W3034184487 creator A5015079931 @default.
• W3034184487 creator A5025749069 @default.
• W3034184487 creator A5036386332 @default.
• W3034184487 creator A5046405692 @default.
• W3034184487 creator A5051219791 @default.
• W3034184487 creator A5080229527 @default.
• W3034184487 date "2020-10-01" @default.
• W3034184487 modified "2023-10-03" @default.
• W3034184487 title "Emerging concerns of VOCs and SVOCs in coking wastewater treatment processes: Distribution profile, emission characteristics, and health risk assessment" @default.
• W3034184487 cites W1775795505 @default.
• W3034184487 cites W1963636475 @default.
• W3034184487 cites W1964064461 @default.
• W3034184487 cites W1966681463 @default.
• W3034184487 cites W1972307984 @default.
• W3034184487 cites W1973082064 @default.
• W3034184487 cites W1973130809 @default.
• W3034184487 cites W1980648186 @default.
• W3034184487 cites W1983612873 @default.
• W3034184487 cites W1984982872 @default.
• W3034184487 cites W1999074249 @default.
• W3034184487 cites W2005522860 @default.
• W3034184487 cites W2008050407 @default.
• W3034184487 cites W2008082080 @default.
• W3034184487 cites W2013585820 @default.
• W3034184487 cites W2014213165 @default.
• W3034184487 cites W2030259435 @default.
• W3034184487 cites W2030847513 @default.
• W3034184487 cites W2038912211 @default.
• W3034184487 cites W2044725539 @default.
• W3034184487 cites W2045642807 @default.
• W3034184487 cites W2047235189 @default.
• W3034184487 cites W2069710181 @default.
• W3034184487 cites W2084078086 @default.
• W3034184487 cites W2091012061 @default.
• W3034184487 cites W2094123166 @default.
• W3034184487 cites W2108230147 @default.
• W3034184487 cites W2111689079 @default.
• W3034184487 cites W2137395922 @default.
• W3034184487 cites W2170590114 @default.
• W3034184487 cites W2190810532 @default.
• W3034184487 cites W2201735116 @default.
• W3034184487 cites W2271070479 @default.
• W3034184487 cites W2333161104 @default.
• W3034184487 cites W2335412420 @default.
• W3034184487 cites W2461362653 @default.
• W3034184487 cites W2529686170 @default.
• W3034184487 cites W2570686029 @default.
• W3034184487 cites W2776950651 @default.
• W3034184487 cites W2793463648 @default.
• W3034184487 cites W2795110911 @default.
• W3034184487 cites W2960003800 @default.
• W3034184487 cites W2963417775 @default.
• W3034184487 cites W3002019023 @default.
• W3034184487 doi "https://doi.org/10.1016/j.envpol.2020.114960" @default.
• W3034184487 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32593902" @default.
• W3034184487 hasPublicationYear "2020" @default.
• W3034184487 type Work @default.
• W3034184487 sameAs 3034184487 @default.
• W3034184487 citedByCount "26" @default.
• W3034184487 countsByYear W30341844872021 @default.
• W3034184487 countsByYear W30341844872022 @default.
• W3034184487 countsByYear W30341844872023 @default.
• W3034184487 crossrefType "journal-article" @default.
• W3034184487 hasAuthorship W3034184487A5005404409 @default.
• W3034184487 hasAuthorship W3034184487A5015079931 @default.
• W3034184487 hasAuthorship W3034184487A5025749069 @default.
• W3034184487 hasAuthorship W3034184487A5036386332 @default.
• W3034184487 hasAuthorship W3034184487A5046405692 @default.
• W3034184487 hasAuthorship W3034184487A5051219791 @default.
• W3034184487 hasAuthorship W3034184487A5080229527 @default.
• W3034184487 hasConcept C107872376 @default.
• W3034184487 hasConcept C147455438 @default.
• W3034184487 hasConcept C178790620 @default.
• W3034184487 hasConcept C185592680 @default.
• W3034184487 hasConcept C2776044436 @default.
• W3034184487 hasConcept C2777691172 @default.
• W3034184487 hasConcept C2777728882 @default.
• W3034184487 hasConcept C2778150766 @default.
• W3034184487 hasConcept C2778519274 @default.
• W3034184487 hasConcept C2779533485 @default.
• W3034184487 hasConcept C39432304 @default.
• W3034184487 hasConcept C5413467 @default.
• W3034184487 hasConcept C82685317 @default.
• W3034184487 hasConcept C87717796 @default.
• W3034184487 hasConcept C94061648 @default.
• W3034184487 hasConceptScore W3034184487C107872376 @default.
• W3034184487 hasConceptScore W3034184487C147455438 @default.
• W3034184487 hasConceptScore W3034184487C178790620 @default.
• W3034184487 hasConceptScore W3034184487C185592680 @default.
• W3034184487 hasConceptScore W3034184487C2776044436 @default.
• W3034184487 hasConceptScore W3034184487C2777691172 @default.
• W3034184487 hasConceptScore W3034184487C2777728882 @default.
• W3034184487 hasConceptScore W3034184487C2778150766 @default.
• W3034184487 hasConceptScore W3034184487C2778519274 @default.
• W3034184487 hasConceptScore W3034184487C2779533485 @default.

• next