Synergistic effects of poly-silicon aluminum sulfate and auxiliary agents in dye wastewater decolorization.
Jie Min, Huilan Zhou, Chao Yang, Lu Wang, Jiajun Nie, Qiang Wang, Lijun Wang, Yunlong Zhao
Abstract
Open AccessHerein, the color-removal effectiveness of nine different structured dyes was compared using self-synthesized poly-silicon aluminum sulfate (PSAS) and six commercial coagulants, namely aluminum sulfate (Alum), polymerized ferric sulfate (PFS), magnesium sulfate (MgSO4), polymerized aluminum chloride (PAC), poly-dimethyl-diallyl-ammonium chloride (PAMDAAC) and anionic-polyacrylamide (APAM). The inorganic polymer coagulants (PAC and PSAS) showed different advantages in the coagulation process. In particular, the latter was adaptable to a wide pH range and exhibited high decolorization ability for most dyes. The color-removal rate of five dyes (two direct dyes, one disperse dye and two acid blue dyes) reached over 90% at a pH of 11. The decolorization efficiencies of reactive black 5 and reactive blue 21 dyes were relatively poor at 40.87% and 75%, respectively. However, none of the seven coagulants could achieve a satisfactory effect on the cationic dyes with stable structures. Most non-cationic dyes have the R-SO3 - group, which could combine with the Al polymer or Al3+ in the coagulant to achieve varying degrees of dye removal. These findings were further supported by FTIR analysis. Zeta-potential analysis indicated that the decolorization of dye wastewater using PSAS was based on a charge neutralization process. Further, four kinds of auxiliaries were used to remove basic dyes. Among them, phosphomolybdic acid (PMoA) showed good performance. With a dosage of 100 mg L-1 PMoA and 50 mg L-1 PSAS, the decolorization rate of rhodamine B (https://www.chembk.com/en/chem/Rhodamine B) reached 94.2%. Finally, the nine pure dyes were mixed in a 1 : 1 ratio to prepare mixed-dye wastewater with a total concentration of 100 mg L-1. The removal rate was 25.3% using PSAS. However, in the presence of PMoA, the removal rate reached 92.5%. Therefore, the combined PMoA and PSAS technology can also achieve desirable results for treating such wastewater.