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W2461014313 startingPage "436" @default.
W2461014313 abstract "The long-term ability of Zero-Valent Iron (ZVI) in contaminant removal relies on the effectiveness of iron to serve as electron donor, which makes it a versatile remediation material. However, the formation of oxide and hydroxide layers results in passive layer on ZVI surface during contaminant removal hinders its reactivity. The focus of this research was to evaluate the performance of corrosive agents such as acetic acid (HAc), aluminium sulphate (Alum) and potassium chloride (KCl) as depassivators to overcome passivation for sustainability and longevity. Batch experiments using seven combinations of the above chemicals were conducted to optimize the dosage of depassivators based on passive layer removal. The influence of depassivators in catalytic activity of ZVI in removing Cr(6+) was evaluated. The passive layer on ZVI particles was characterized using Scanning Electron Microscopy (SEM) and confirmed by Energy-Dispersive X-ray spectroscopy (EDAX) analysis. The major mechanisms in passive layer removal was found to be H(+) ion embrittlement followed by uniform depassivation when [HAc] was used and pitting corrosion when [Alum] and [KCl]were used. All the seven sets of chemicals enabled depassivation, but considering the criteria of maximum depassivation, catalytic activity and long term reactivity the depassivation treatments were effective in order as [HAc-Alum] > [HAc-Alum-KCl] >[HAc] > [Alum] > [HAc-KCl] > [KCl] > [Alum-KCl]. The kinetic rate of ZVI using [HAc-Alum] and [Alum] was relatively unchanged over the pH range of 4-10, made it suitable for ex-situ remediation. This insignificant influence of initial pH in catalytic activity of ZVI along with the improvement in longevity and sustainability makes it suitable for effective water treatment applications. The present work has successfully demonstrated that chemical depassivation can restore considerable reactivity of ZVI in the existing permeable reactive barriers." @default.
W2461014313 created "2016-07-22" @default.
W2461014313 creator A5036302189 @default.
W2461014313 creator A5056028892 @default.
W2461014313 creator A5088763130 @default.
W2461014313 date "2016-10-01" @default.
W2461014313 modified "2023-09-24" @default.
W2461014313 title "Performance enhancement of zero valent iron based systems using depassivators: Optimization and kinetic mechanisms" @default.
W2461014313 cites W1963974345 @default.
W2461014313 cites W1965981134 @default.
W2461014313 cites W1967144232 @default.
W2461014313 cites W1969928595 @default.
W2461014313 cites W1969933384 @default.
W2461014313 cites W1970020790 @default.
W2461014313 cites W1974308860 @default.
W2461014313 cites W1982631202 @default.
W2461014313 cites W1991549474 @default.
W2461014313 cites W1992971718 @default.
W2461014313 cites W1993119216 @default.
W2461014313 cites W1995274268 @default.
W2461014313 cites W1996030557 @default.
W2461014313 cites W2002409092 @default.
W2461014313 cites W2007505463 @default.
W2461014313 cites W2010198163 @default.
W2461014313 cites W2010326083 @default.
W2461014313 cites W2010532473 @default.
W2461014313 cites W2013082561 @default.
W2461014313 cites W2021436332 @default.
W2461014313 cites W2024188776 @default.
W2461014313 cites W2030714109 @default.
W2461014313 cites W2031827585 @default.
W2461014313 cites W2038330670 @default.
W2461014313 cites W2038611139 @default.
W2461014313 cites W2041276902 @default.
W2461014313 cites W2042972714 @default.
W2461014313 cites W2049272618 @default.
W2461014313 cites W2050292734 @default.
W2461014313 cites W2051422958 @default.
W2461014313 cites W2055765487 @default.
W2461014313 cites W2056866832 @default.
W2461014313 cites W2069434137 @default.
W2461014313 cites W2071476685 @default.
W2461014313 cites W2073806879 @default.
W2461014313 cites W2075681828 @default.
W2461014313 cites W2078167964 @default.
W2461014313 cites W2080974924 @default.
W2461014313 cites W2086225361 @default.
W2461014313 cites W2090710519 @default.
W2461014313 cites W2092568178 @default.
W2461014313 cites W2093425106 @default.
W2461014313 cites W2093921254 @default.
W2461014313 cites W2118006233 @default.
W2461014313 cites W2123537564 @default.
W2461014313 cites W2147020106 @default.
W2461014313 cites W2152065978 @default.
W2461014313 cites W2211534781 @default.
W2461014313 cites W2315793535 @default.
W2461014313 cites W2471433603 @default.
W2461014313 cites W4253684410 @default.
W2461014313 cites W843638094 @default.
W2461014313 doi "https://doi.org/10.1016/j.watres.2016.06.064" @default.
W2461014313 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27395028" @default.
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