4.5 Article

Removal of nitrides and fluorides from secondary aluminum dross by catalytic hydrolysis and its mechanism

Journal

HELIYON
Volume 9, Issue 1, Pages -

Publisher

CELL PRESS
DOI: 10.1016/j.heliyon.2023.e12893

Keywords

Secondary aluminum dross; Catalytic hydrolysis; Aluminum nitride; Fluoride; Response surface experiment

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This study investigated the catalytic hydrolysis of secondary aluminum dross (SAD) using NaOH as a catalyst to remove nitrides and fluorides simultaneously. The optimal conditions for catalytic hydrolysis were established and achieved efficient removal of nitrides and fluorides. The chemical speciation and transformation of nitrides and fluorides were systematically analyzed. The results of this study are significant for resource utilization of SAD.
Secondary aluminum dross (SAD) refers to hazardous waste from secondary aluminum refinement. It contains a large amount of aluminum nitride and fluorides that cause serious environmental pollution for direct discharge and hinder the resource utilization of SAD. However, it is difficult to remove nitride and fluoride simultaneously for their complicated phases. In this paper, the catalytic hydrolysis of SAD using NaOH as a catalyst to remove nitrides and fluorides synchronously was investigated systemically through single factor and response surface experiments. In addition, the chemical speciation and transformation of nitrides and fluorides were analyzed systematically. The catalytic hydrolysis removal mechanism was summarized. The optimal conditions for catalytic hydrolysis were established as follows: reaction temperature 96.60 degrees C; reaction time 2.85 h; liquid-solid ratio 9.28 mL/g and catalyst addition 12.62 wt %; and removal efficiency of nitrides and fluorides reached 99.03% and 81.93%, respectively. The mechanism of nitrides removal was that aluminum nitride was hydrolyzed to Al(OH)(3) and NH3 center dot NaOH reacting with Al(OH)(3) covering on the surface of AlN and the rapid escape of NH3 promoted the hydrolysis of AlN under the catalysis of NaOH. The mechanism of fluorides removal was that the encapsulated fluoride particles were opened by catalytic hydrolysis to be dissolved in the solution. In this research, nitrides and fluorides were removed efficiently and synchronously. The hydrolysis residues can be used to prepare polyaluminum chloride (PAC) and ceramic materials. The hydrolysate can be prepared NH3 center dot H2O by evaporative in alkaline solution. Then the solution without NH4+ was prepared Al(OH)(3) by precipitation of adjusting pH value using HCl. And the remained liquid after removing NaAlO2 was used to prepare refining agent by evaporative crystallization. The work in this paper was beneficial for the utilization of SAD.

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