CARACTERIZAÇÃO DE RESÍDUOS SÓLIDOS INDUSTRIAIS POR ANÁLISE TÉRMICA: PERSPECTIVAS DE USO COMO MATERIAL FILTRANTE PARA ÁGUAS RESIDUÁRIAS

Abstract

CHARACTERIZATION OF SOLID RESIDUES THROUGH THERMAL ANALYSIS: UTILIZATION PERSPECTIVE AS FILTER MATERIAL FOR WASTEWATER TREATMENT. Metallurgical waste and vermiculite are solid residues that have potential of utilization as filtering material. Nevertheless, they are commonly discarded. These materials have chemical sites like Si-O, Si-O-Si in vermiculite or have good ionic exchange properties like iron oxide compounds that can be used in adsorption processes. When these materials are combined with a synthetic blanket (OH, C=C, CO and C-H groups), it composes a filter layer with potential to be used in wastewater treatment. In this article, these materials were chemically treated and characterized by Thermogravimetry (TG), Differential Scanning Calorimetry (DSC), Fourier Transform Infrared Spectroscopy (FTIR) and coupled TG-FTIR. The results suggest that organic compound contamination was not found after chemical treatment, which could have remained over the unity operations in the Metallurgical processes. The thermal and acid treatments influenced a major formation of iron oxide formation, but its oxidation degree (FeO, Fe2O3, or Fe2O3.FeO) were dependent on the sample granulometry. The Vermiculite shows an irreversible chemical modification after thermal treatment. The characterization of these residues shows its potential use as material in filter construction. Hence, it is fundamental to minimize the environmental impacts as well as to diminish the production costs in wastewater treatment.