openarchives.gr | Resin-supported nanoiron: A powerful tool for heavy metal decontamination - Elucidating the mechanism through column studies

Resin-supported nanoiron: A powerful tool for heavy metal decontamination - Elucidating the mechanism through column studies

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Τεχνικό Επιμελητήριο Ελλάδας (ΤΕΕ)

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Technical Annals | ΕΚΤ eJournals

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Title

Resin-supported nanoiron: A powerful tool for heavy metal decontamination - Elucidating the mechanism through column studies (EN)

Creator

Papassiopi, Nymphodora

Mystrioti, Christiana

Xenidis, Anthimos

Type

info:eu-repo/semantics/article

info:eu-repo/semantics/publishedVersion

Τμήμα έκδοσης
Publication in journal (EN)

Άρθρο
Scientific article (EN)

Date

2024-01-30

Year

2024 (EL)

Description

The significance of removing heavy metal ions from wastewater treatment plant effluents cannot be overstated in preserving a clean environment and protecting human health. Various methods, including adsorption, membrane-based processes, chemical treatments, electrical methods, and photocatalysis, have been documented for the effective removal of heavy metal ions from different wastewater sources. Nanoparticles, with their strong affinity, show promise in wastewater treatment, particularly in efficiently extracting heavy metals. This study aimed to evaluate the effectiveness of an iron nanocomposite, RnFe, in eliminating various heavy metals from effluents of wastewater treatment plants through column tests. RnFe is composed of iron nanoparticles supported in an inert cationic resin, produced using green tea extract as a reducing agent for Fe(III) to Fe(0). The introduced feed solution to the columns contained a mixture of heavy metals, including Cr(VI), As, Ni, Pb, Cu, Cd, and Zn. The study investigated the impact of contact time on the sorption and reduction rates of the selected compounds, varying contact times to 2.4, 4.8, and 6 minutes. RnFe demonstrated high efficiency in removing Cr(VI) and As, with effluent concentrations meeting environmental limits when the contact time exceeded 5 minutes. However, the performance of RnFe was less effective for divalent metal contaminants due to the strong competitive effect of coexisting Ca. The study provided a succinct exploration of the mechanisms involved in using the RnFe nanocomposite for the removal of metals and metalloids. (EN)

Scientific field

Engineering and Technology (EN)

Subject

wastewater stream (EN)

nano zero valent iron (EN)

flow conditions (EN)

heavy metals (EN)

metal decontamination (EN)

water pollution (EN)

iron nanocomposite (EN)

removal mechanism (EN)

Language

English

Publisher

Technical Chamber of Greece (EN)

School / Department / Institute

Source

2945-0330

Technical Annals; Vol. 1 No. 5 (2024): Technical Annals (EN)

Rights

https://creativecommons.org/licenses/by-nc-sa/4.0

Provider

Τεχνικό Επιμελητήριο Ελλάδας (ΤΕΕ)

Repository / collection

Technical Annals

Subcollections

Sustainable Development

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Resin-supported nanoiron: A powerful tool for heavy metal decontamination - Elucidating the mechanism through column studies

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