Removal of direct dyes by coagulation: adaptability and mechanism related to the molecular structure
Date
2022
Authors
Wei, Q.
Zhang, Y.
Zhang, K.
Mwasiagi, J.I.
Zhao, X.
Chow, C.W.K.
Tang, R.
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Journal article
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Korean Journal of Chemical Engineering, 2022; 39(7):1850-1862
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Abstract
The textile industry uses a variety of synthetic dyes for dyeing and discharges a large amount of colored wastewater. It is difficult to achieve good decolorization effect for textile wastewater by conventional biological treatment methods, because it contains various synthetic dyes with complex structures. At present, coagulation is an economical and effective treatment method. However, in dye removal by coagulation research, the adaptability and mechanisms of coagulation removal of many dyes are still unknown due to the wide variety of dyes in use. In this study, ferric chloride (FeCl₃), aluminum chloride (AlCl₃) and magnesium chloride (MgCl₂) were selected as coagulants, and direct orange 26 (DO), direct yellow 11 (DY) and direct black 19 (DB) were used as the dye samples to conduct a series of coagulation experiments; in order to understand the coagulation adaptability and mechanism for high removal efficiency of direct dyes. In this system without particles, the direct dyes were dissolved directly in pure water and maintained in molecular state.
The results showed that 1) AlCl₃, FeCl₃ and MgCl₂ exhibited superior coagulation efficiency on the three dyes. Direct dyes which contain more amino functional groups are more easily removed by coagulation. 2) The influence of hydraulic conditions on the residual turbidity was more significant compared with the color removal. 3) Zeta potential increased with the increase of the coagulant dosage, but the colloidal particles did not re-stabilize. This proved that charge neutralization is not the dominant mechanism of coagulation. The FT-IR and XRD patterns indicated that the direct dyes were removed by the chemical combination of the -SO₃H on the dye molecule and the hydrolysate of the coagulant.
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Copyright 2022 The Korean Institute of Chemical Engineers