Foam separation for effective removal of disperse and reactive dyes from aqueous solutions

[Display omitted] •Reactive and disperse dyes were removed from aqueous solution with foam separation.•The optimum parameters for foam separation process were determined.•CTAB was used as foaming agent to provide effective adsorption of the dyes.•The performance evaluation was made to compare nitrog...

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Bibliographic Details
Published in:Separation and purification technology 2020-09, Vol.247, p.116985, Article 116985
Main Authors: Soylu, Mahmut, Gökkuş, Ömür, Özyonar, Fuat
Format: Article
Language:English
Subjects:
CTAB
Disperse Blue 60
Foam separation
Reactive Red 241
Surfactants
Textile dyes
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Summary:[Display omitted] •Reactive and disperse dyes were removed from aqueous solution with foam separation.•The optimum parameters for foam separation process were determined.•CTAB was used as foaming agent to provide effective adsorption of the dyes.•The performance evaluation was made to compare nitrogen and air as foaming gases. In this study, the effectiveness of the foam separation process for removal of color and total organic carbon (TOC) from the dye solution was assessed. The optimum experimental conditions for the selected parameters such as pH, air flowrate, concentration of surfactant etc. were determined for RR 241 and DB 60, and the performance difference of the foam separation process for water-soluble and insoluble dyes has been demonstrated. The optimum conditions were determined as pH 5 and pH 3 with surfactant concentration of 100 mg⋅L−1 and at air flowrate of 0.5 and 0.2 L⋅min−1 for the treatment of 500 mL of 100 mg⋅L−1 RR 241 and DB 60 solutions, respectively. At these optimum conditions, 99.6 – 92.4% color and 92.5 – 85.6% TOC removals were reached for RR 241 and DB 60, respectively. In the case of nitrogen gas bubbled into the column instead of air under the same optimum conditions, color and TOC abatements were 99.1 – 99.4% and 91.1 – 84.8% for RR 241 and DB 60, respectively. In the nitrogen gas assays, the experiments were performed under the same conditions with air as pH 5 and pH 3 with surfactant concentration of 100 mg⋅L−1 and at gas flowrate of 0.5 and 0.2 L⋅min−1 for the treatment of 500 mL of 100 mg⋅L−1 RR 241 and DB 60 solutions, respectively. According to the results, the treatment performance of foam separation process depends strongly on the structure of pollutant and type of the carrier gas used in the column.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2020.116985