Abstract

Coagulation is an extensive and effective pretreatment technology for improving sludge dewatering performance. In this study, polysilicate ferric (PSF), polysilicate aluminum ferric (PSAF), and polysilicate aluminum ferric magnesium (PSAFM) were prepared by copolymerization reaction, and their preparation conditions include pH, temperature (T), and mole ratio were optimized by the single factor and response surface experiments. The optimal preparation conditions of the above coagulants are shown as follows: PSF (pH = 1.0, T = 20 °C, Si/Fe = 1.00), PSAF (pH = 1.0, T = 20 °C, Si/M = 0.40, Fe/Al = 1.562), PSAFM (pH = 1.0, T = 20 °C, Si/M = 1.08, Fe/Al = 2.00, Fe/Mg = 2.00). The characterization of dewatering agents was analyzed by Fourier transform infrared spectroscopy (FTIR), X-ray diffraction analysis (XRD), and Fe-Ferron time-by-time complexation colorimetric method. Also, the particle sizes, molecular weights and Zeta potentials were analyzed. The results indicated that Fe3+, Al3+, Mg2+ and polysilicon acid underwent polymerization to form macromolecular amorphous polymers. The performance of polysilicate in sludge dewatering pretreatment were investigated by coagulation experiments, meanwhile, in order to study the influence of polysilicic acid on sludge dewatering performance, commercial polyferric sulfate (PFS) was taken as a comparison. The results showed that polysilicate improved sludge dewatering performance through adsorption bridging effect and charge neutralization. In addition, the content of tightly bound EPS (TB-EPS) and bound water was reduced by polysilicate, which resulted in excellent sludge dewatering performance.

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