Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride

Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride

This research proposes the application of iron-loaded sepiolite (S-Fe) as a catalytic adsorbent for the unreported 1-butylpyridinium chloride ([bpy] Cl) treatment in an aqueous medium. Initially, sepiolite was selected as an inexpensive and efficacious adsorbent for [bpy] Cl elimination. After that,...

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Main Authors: Imen Ouiriemmi, Aida M. Díez, Marta Pazos, María Ángeles Sanromán
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Catalysts
Subjects:
adsorption
electro-Fenton
ionic liquid
regeneration
fixed-bed column
Online Access:https://www.mdpi.com/2073-4344/10/9/950
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spelling doaj-ae3036b37d0f4fb9a38085a84a83a24d2020-11-25T03:42:12ZengMDPI AGCatalysts2073-43442020-08-011095095010.3390/catal10090950Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium ChlorideImen Ouiriemmi0Aida M. Díez1Marta Pazos2María Ángeles Sanromán3CINTECX, Universidade de Vigo, Chemical Engineering Department Campus As Lagoas-Marcosende, University of Vigo, 36310 Vigo, SpainCINTECX, Universidade de Vigo, Chemical Engineering Department Campus As Lagoas-Marcosende, University of Vigo, 36310 Vigo, SpainCINTECX, Universidade de Vigo, Chemical Engineering Department Campus As Lagoas-Marcosende, University of Vigo, 36310 Vigo, SpainCINTECX, Universidade de Vigo, Chemical Engineering Department Campus As Lagoas-Marcosende, University of Vigo, 36310 Vigo, SpainThis research proposes the application of iron-loaded sepiolite (S-Fe) as a catalytic adsorbent for the unreported 1-butylpyridinium chloride ([bpy] Cl) treatment in an aqueous medium. Initially, sepiolite was selected as an inexpensive and efficacious adsorbent for [bpy] Cl elimination. After that, sepiolite was loaded with iron for the subsequent electro-Fenton (EF) regeneration treatment. Once kinetic and isotherm studies were performed, providing respectively almost instantaneous adsorption (20 min) and an uptake of 22.85 mg/g, [bpy] Cl adsorption onto S-Fe was studied in continuous mode. The obtained breakthrough curve was analyzed using three standard breakthrough models, being Yoon–Nelson and Thomas the most suitable adjustments. Afterwards, S-Fe regeneration by the EF process was conducted using this iron-loaded silicate material as a heterogeneous catalyst. Under optimized operational conditions (current intensity 300 mA and Na<sub>2</sub>SO<sub>4</sub> 0.3 M), complete adsorbent regeneration was achieved in 10 h. The total mineralization of [bpy] Cl was reached within 24 h and among seven carboxylic acids detected, oxalic and acetic acids seem to be the primary carboxylic acids produced by [bpy] Cl degradation. Finally, S-Fe was efficiently used in four consecutive adsorption–regeneration cycles without a noticeable reduction in its adsorption capacity, opening a path for future uses.https://www.mdpi.com/2073-4344/10/9/950adsorptionelectro-Fentonionic liquidregenerationfixed-bed column
collection DOAJ
language English
format Article
sources DOAJ
author Imen Ouiriemmi
Aida M. Díez
Marta Pazos
María Ángeles Sanromán
spellingShingle Imen Ouiriemmi
Aida M. Díez
Marta Pazos
María Ángeles Sanromán
Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride
Catalysts
adsorption
electro-Fenton
ionic liquid
regeneration
fixed-bed column
author_facet Imen Ouiriemmi
Aida M. Díez
Marta Pazos
María Ángeles Sanromán
author_sort Imen Ouiriemmi
title Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride
title_short Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride
title_full Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride
title_fullStr Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride
title_full_unstemmed Iron-Loaded Catalytic Silicate Adsorbents: Synthesis, Characterization, Electroregeneration and Application for Continuous Removal of 1-Butylpyridinium Chloride
title_sort iron-loaded catalytic silicate adsorbents: synthesis, characterization, electroregeneration and application for continuous removal of 1-butylpyridinium chloride
publisher MDPI AG
series Catalysts
issn 2073-4344
publishDate 2020-08-01
description This research proposes the application of iron-loaded sepiolite (S-Fe) as a catalytic adsorbent for the unreported 1-butylpyridinium chloride ([bpy] Cl) treatment in an aqueous medium. Initially, sepiolite was selected as an inexpensive and efficacious adsorbent for [bpy] Cl elimination. After that, sepiolite was loaded with iron for the subsequent electro-Fenton (EF) regeneration treatment. Once kinetic and isotherm studies were performed, providing respectively almost instantaneous adsorption (20 min) and an uptake of 22.85 mg/g, [bpy] Cl adsorption onto S-Fe was studied in continuous mode. The obtained breakthrough curve was analyzed using three standard breakthrough models, being Yoon–Nelson and Thomas the most suitable adjustments. Afterwards, S-Fe regeneration by the EF process was conducted using this iron-loaded silicate material as a heterogeneous catalyst. Under optimized operational conditions (current intensity 300 mA and Na<sub>2</sub>SO<sub>4</sub> 0.3 M), complete adsorbent regeneration was achieved in 10 h. The total mineralization of [bpy] Cl was reached within 24 h and among seven carboxylic acids detected, oxalic and acetic acids seem to be the primary carboxylic acids produced by [bpy] Cl degradation. Finally, S-Fe was efficiently used in four consecutive adsorption–regeneration cycles without a noticeable reduction in its adsorption capacity, opening a path for future uses.
topic adsorption
electro-Fenton
ionic liquid
regeneration
fixed-bed column
url https://www.mdpi.com/2073-4344/10/9/950
work_keys_str_mv AT imenouiriemmi ironloadedcatalyticsilicateadsorbentssynthesischaracterizationelectroregenerationandapplicationforcontinuousremovalof1butylpyridiniumchloride
AT aidamdiez ironloadedcatalyticsilicateadsorbentssynthesischaracterizationelectroregenerationandapplicationforcontinuousremovalof1butylpyridiniumchloride
AT martapazos ironloadedcatalyticsilicateadsorbentssynthesischaracterizationelectroregenerationandapplicationforcontinuousremovalof1butylpyridiniumchloride
AT mariaangelessanroman ironloadedcatalyticsilicateadsorbentssynthesischaracterizationelectroregenerationandapplicationforcontinuousremovalof1butylpyridiniumchloride
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