Kaolinite adsorption-regeneration system for dyestuff treatment by Fenton based processes

The regeneration and reuse of adsorbents is a subject of interest nowadays in order to reduce the pollution and the wastes generated in the adsorption wastewater treatment. In this work, the regeneration of the spent kaolinite by different advanced oxidation processes (Fenton, electro-Fenton and ele...

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Published inThe Science of the total environment Vol. 622-623; pp. 556 - 562
Main Authors Rosales, Emilio, Anasie, Delia, Pazos, Marta, Lazar, Iuliana, Sanromán, M. Angeles
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.05.2018
Subjects
Adsorption-degradation system
Electro-Fenton
Electrokinetic-Fenton
Fenton
Spent adsorbent
Fenton
Electro-Fenton
Spent adsorbent
Electrokinetic-Fenton
Adsorption-degradation system
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Abstract The regeneration and reuse of adsorbents is a subject of interest nowadays in order to reduce the pollution and the wastes generated in the adsorption wastewater treatment. In this work, the regeneration of the spent kaolinite by different advanced oxidation processes (Fenton, electro-Fenton and electrokinetic-Fenton) was evaluated. Initially, it was confirmed the ability of a low cost clayey material, kaolinite, for the adsorption of model dye such as Rhodamine B showing Freundlich isotherm fitting. Then, the regeneration and consequent degradation of the pollutant in the adsorbent by Fenton based processes was carried out. The role of different parameters affecting the regeneration process (H2O2:Fe2+ ratio, liquid:solid ratio) were evaluated. Working at 100:1 H2O2:Fe2+ ratio and 30min near complete dye removal (around 97%) from kaolinite was obtained by Fenton treatment. After that, a two-stage treatment for adsorption-regeneration was evaluated during five treatment cycles demonstrating its viability for regeneration of the adsorbent through dye degradation. Based on the successful application of Fenton technique, the improvement of the treatment by electro-Fenton and electrokinetic-Fenton were studied for different solid:liquid ratios achieving satisfactory regeneration values. [Display omitted] •Kaolinite proved to be a viable low cost adsorbent in the removal of dye from wastewater.•Feasible regeneration of spent adsorbent by Fenton techniques using different solid:liquid ratios•Adsorption-degradation cycles were successfully carried out.•No alteration of the kaolinite was detect after the successive cycles.
AbstractList The regeneration and reuse of adsorbents is a subject of interest nowadays in order to reduce the pollution and the wastes generated in the adsorption wastewater treatment. In this work, the regeneration of the spent kaolinite by different advanced oxidation processes (Fenton, electro-Fenton and electrokinetic-Fenton) was evaluated. Initially, it was confirmed the ability of a low cost clayey material, kaolinite, for the adsorption of model dye such as Rhodamine B showing Freundlich isotherm fitting. Then, the regeneration and consequent degradation of the pollutant in the adsorbent by Fenton based processes was carried out. The role of different parameters affecting the regeneration process (H O :Fe ratio, liquid:solid ratio) were evaluated. Working at 100:1 H O :Fe ratio and 30min near complete dye removal (around 97%) from kaolinite was obtained by Fenton treatment. After that, a two-stage treatment for adsorption-regeneration was evaluated during five treatment cycles demonstrating its viability for regeneration of the adsorbent through dye degradation. Based on the successful application of Fenton technique, the improvement of the treatment by electro-Fenton and electrokinetic-Fenton were studied for different solid:liquid ratios achieving satisfactory regeneration values.
The regeneration and reuse of adsorbents is a subject of interest nowadays in order to reduce the pollution and the wastes generated in the adsorption wastewater treatment. In this work, the regeneration of the spent kaolinite by different advanced oxidation processes (Fenton, electro-Fenton and electrokinetic-Fenton) was evaluated. Initially, it was confirmed the ability of a low cost clayey material, kaolinite, for the adsorption of model dye such as Rhodamine B showing Freundlich isotherm fitting. Then, the regeneration and consequent degradation of the pollutant in the adsorbent by Fenton based processes was carried out. The role of different parameters affecting the regeneration process (H2O2:Fe2+ ratio, liquid:solid ratio) were evaluated. Working at 100:1 H2O2:Fe2+ ratio and 30min near complete dye removal (around 97%) from kaolinite was obtained by Fenton treatment. After that, a two-stage treatment for adsorption-regeneration was evaluated during five treatment cycles demonstrating its viability for regeneration of the adsorbent through dye degradation. Based on the successful application of Fenton technique, the improvement of the treatment by electro-Fenton and electrokinetic-Fenton were studied for different solid:liquid ratios achieving satisfactory regeneration values. [Display omitted] •Kaolinite proved to be a viable low cost adsorbent in the removal of dye from wastewater.•Feasible regeneration of spent adsorbent by Fenton techniques using different solid:liquid ratios•Adsorption-degradation cycles were successfully carried out.•No alteration of the kaolinite was detect after the successive cycles.
The regeneration and reuse of adsorbents is a subject of interest nowadays in order to reduce the pollution and the wastes generated in the adsorption wastewater treatment. In this work, the regeneration of the spent kaolinite by different advanced oxidation processes (Fenton, electro-Fenton and electrokinetic-Fenton) was evaluated. Initially, it was confirmed the ability of a low cost clayey material, kaolinite, for the adsorption of model dye such as Rhodamine B showing Freundlich isotherm fitting. Then, the regeneration and consequent degradation of the pollutant in the adsorbent by Fenton based processes was carried out. The role of different parameters affecting the regeneration process (H2O2:Fe2+ ratio, liquid:solid ratio) were evaluated. Working at 100:1 H2O2:Fe2+ ratio and 30min near complete dye removal (around 97%) from kaolinite was obtained by Fenton treatment. After that, a two-stage treatment for adsorption-regeneration was evaluated during five treatment cycles demonstrating its viability for regeneration of the adsorbent through dye degradation. Based on the successful application of Fenton technique, the improvement of the treatment by electro-Fenton and electrokinetic-Fenton were studied for different solid:liquid ratios achieving satisfactory regeneration values.
Author Lazar, Iuliana
Pazos, Marta
Anasie, Delia
Rosales, Emilio
Sanromán, M. Angeles
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Keywords Fenton
Electro-Fenton
Spent adsorbent
Electrokinetic-Fenton
Adsorption-degradation system
Language English
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Snippet The regeneration and reuse of adsorbents is a subject of interest nowadays in order to reduce the pollution and the wastes generated in the adsorption...
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SubjectTerms Adsorption-degradation system
Electro-Fenton
Electrokinetic-Fenton
Fenton
Spent adsorbent
Title Kaolinite adsorption-regeneration system for dyestuff treatment by Fenton based processes
URI https://dx.doi.org/10.1016/j.scitotenv.2017.11.301
https://www.ncbi.nlm.nih.gov/pubmed/29223079
https://search.proquest.com/docview/1975033863
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