SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4205087343> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W4205087343 endingPage "28004" @default.
W4205087343 startingPage "27988" @default.
W4205087343 abstract "Metal and tributyltin (TBT) contaminated sediments are problematic for sediment managers and the environment. This study is the first to compare Fenton's reagent and electrochemical treatment as remediation methods for the removal of TBT and metals using laboratory-scale experiments on contaminated dredged sediment. The costs and the applicability of the developed methods were also compared and discussed. Both methods removed > 98% TBT from TBT-spiked sediment samples, while Fenton's reagent removed 64% of the TBT and electrolysis 58% of the TBT from non-spiked samples. TBT in water phase was effectively degraded in both experiments on spiked water and in leachates during the treatment of the sediment. Positive correlations were observed between TBT removal and the added amount of hydrogen peroxide and current density. Both methods removed metals from the sediment, but Fenton's reagent was identified as the most potent option for effective removal of both metals and TBT, especially from highly metal-contaminated sediment. However, due to risks associated with the required chemicals and low pH level in the sediment residue following the Fenton treatment, electrochemical treatment could be a more sustainable option for treating larger quantities of contaminated sediment." @default.
W4205087343 created "2022-01-25" @default.
W4205087343 creator A5027601820 @default.
W4205087343 creator A5043313439 @default.
W4205087343 creator A5045756652 @default.
W4205087343 creator A5056219557 @default.
W4205087343 creator A5063884823 @default.
W4205087343 creator A5069062102 @default.
W4205087343 creator A5070050043 @default.
W4205087343 date "2022-01-05" @default.
W4205087343 modified "2023-09-25" @default.
W4205087343 title "Removal of organotin compounds and metals from Swedish marine sediment using Fenton’s reagent and electrochemical treatment" @default.
W4205087343 cites W1892070666 @default.
W4205087343 cites W1938695189 @default.
W4205087343 cites W1965917254 @default.
W4205087343 cites W1967232560 @default.
W4205087343 cites W1968478707 @default.
W4205087343 cites W1973000777 @default.
W4205087343 cites W1983228601 @default.
W4205087343 cites W1984212847 @default.
W4205087343 cites W1986084026 @default.
W4205087343 cites W1992983760 @default.
W4205087343 cites W1992990791 @default.
W4205087343 cites W1994154825 @default.
W4205087343 cites W2003815900 @default.
W4205087343 cites W2022051344 @default.
W4205087343 cites W2034186649 @default.
W4205087343 cites W2036747648 @default.
W4205087343 cites W2038822493 @default.
W4205087343 cites W2039036836 @default.
W4205087343 cites W2040441208 @default.
W4205087343 cites W2041981078 @default.
W4205087343 cites W2045056807 @default.
W4205087343 cites W2054291974 @default.
W4205087343 cites W2055058417 @default.
W4205087343 cites W2057420582 @default.
W4205087343 cites W2060518427 @default.
W4205087343 cites W2063380188 @default.
W4205087343 cites W2071074231 @default.
W4205087343 cites W2075736526 @default.
W4205087343 cites W2078516555 @default.
W4205087343 cites W2081816274 @default.
W4205087343 cites W2082708265 @default.
W4205087343 cites W2083056208 @default.
W4205087343 cites W2084078182 @default.
W4205087343 cites W2084618319 @default.
W4205087343 cites W2086517932 @default.
W4205087343 cites W2087233783 @default.
W4205087343 cites W2089465218 @default.
W4205087343 cites W2092359789 @default.
W4205087343 cites W2126964177 @default.
W4205087343 cites W2136099556 @default.
W4205087343 cites W2143105327 @default.
W4205087343 cites W2167431158 @default.
W4205087343 cites W2170127435 @default.
W4205087343 cites W2334020019 @default.
W4205087343 cites W2437782638 @default.
W4205087343 cites W2508930034 @default.
W4205087343 cites W2554885068 @default.
W4205087343 cites W2587461766 @default.
W4205087343 cites W2608168719 @default.
W4205087343 cites W2617640584 @default.
W4205087343 cites W2617656420 @default.
W4205087343 cites W2709090031 @default.
W4205087343 cites W2793226524 @default.
W4205087343 cites W2885918363 @default.
W4205087343 cites W2902343970 @default.
W4205087343 cites W2908615729 @default.
W4205087343 cites W2925172487 @default.
W4205087343 cites W2935880859 @default.
W4205087343 cites W2947063934 @default.
W4205087343 cites W2985477310 @default.
W4205087343 cites W2988541995 @default.
W4205087343 cites W3119351109 @default.
W4205087343 cites W3125959739 @default.
W4205087343 cites W3158016734 @default.
W4205087343 cites W3170850166 @default.
W4205087343 cites W3179573923 @default.
W4205087343 doi "https://doi.org/10.1007/s11356-021-17554-8" @default.
W4205087343 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34985631" @default.
W4205087343 hasPublicationYear "2022" @default.
W4205087343 type Work @default.
W4205087343 citedByCount "5" @default.
W4205087343 countsByYear W42050873432022 @default.
W4205087343 countsByYear W42050873432023 @default.
W4205087343 crossrefType "journal-article" @default.
W4205087343 hasAuthorship W4205087343A5027601820 @default.
W4205087343 hasAuthorship W4205087343A5043313439 @default.
W4205087343 hasAuthorship W4205087343A5045756652 @default.
W4205087343 hasAuthorship W4205087343A5056219557 @default.
W4205087343 hasAuthorship W4205087343A5063884823 @default.
W4205087343 hasAuthorship W4205087343A5069062102 @default.
W4205087343 hasAuthorship W4205087343A5070050043 @default.
W4205087343 hasBestOaLocation W42050873431 @default.
W4205087343 hasConcept C107872376 @default.
W4205087343 hasConcept C112570922 @default.
W4205087343 hasConcept C127313418 @default.
W4205087343 hasConcept C151730666 @default.