Avaliação da utilização das cinzas da escuma gerada em Reator Anaeróbico de Manta de Lodo e Fluxo Ascendente como pigmento inorgânico de coloração alaranjada / Evaluation of the use of ashes of scum generated from the Upflow Anaerobic Sludge Blanket reactor as orange inorganic pigment

RESUMO A escuma é um resíduo gerado durante o tratamento anaeróbico de efluentes domésticos que necessita de periódica remoção para não comprometer a eficiência do processo. O presente trabalho teve por objetivo utilizar as cinzas da escuma gerada em Reator Anaeróbico de Manta de Lodo e Fluxo Ascendente (RALF) como pigmentos inorgânicos. Amostras de escumas coletadas em diferentes meses foram submetidas a tratamento térmico a 900°C por 1h para remoção da matéria orgânica. As cinzas obtidas foram desaglomeradas em peneira e submetidas às análises química (Fluorescência de raios X - FRX), mineralógica (Difração de raios X - DRX), morfológica (Microscopia Eletrônica de Varredura por Efeito de Campo - FE-MEV) e de coloração (espectroscopia de reflectância difusa na região do Ultravioleta-Visível - UV-Vis). As amostras apresentaram composição majoritária de elementos comuns no ambiente, sendo as fases principais identificadas o quartzo (dióxido de silício - SiO2), a anidrita (sulfato de cálcio - CaSO4) e a hematita (óxido de ferro - Fe2O3). A granulometria das amostras é adequada para a aplicação como pigmento cerâmico; a coloração obtida foi alaranjada intensa e boas propriedades foram identificadas, como boa opacidade, omitindo a coloração do suporte cerâmico, além de não existirem defeitos superficiais que indicassem matéria orgânica residual ou incompatibilidade com o esmalte utilizado. Sendo assim, as cinzas da escuma gerada em RALF apresentaram características interessantes para a aplicação como pigmentos cerâmicos.

ABSTRACT Scum is a residue generated during the anaerobic treatment of domestic effluents and requires periodical removal in order not to harm the process efficacy. This study aimed to use the scum ashes generated from Upflow Anaerobic Sludge Blanket (UASB) reactor as inorganic pigments. The scum samples collected in different months were thermally treated at 900°C for one hour for removal of organic matter. These ashes were dispersed and submitted to chemical (X-ray Fluorescence - XRF), mineralogical (X-ray Diffraction - XRD), morphological (Field Emission Scanning Electron Microscopy - FE-SEM) and color (Ultraviolet-Visible Diffuse Reflectance Spectroscopy - UV-Vis DRS) analyses. The samples were composed mainly by elements commonly found in the environment. The main crystalline phases are quartz (silicon dioxide - SiO2), anhydrite (calcium sulfate - CaSO4) and hematite (iron oxide - Fe2O3). Also, these particles presented suitable size for application as ceramic pigment and the color obtained was intense orange. When applied as ceramic pigment at the decorative fire temperature, the enameled piece presented intense color and the pigment had good opacity, hiding the ceramic support color, besides, they presented no surface deformations, which indicates the pigments are compatible with enamel. Thus, scum ashes generated in UASB reactor presented interesting characteristics to be applied as ceramic pigments.

Evaluation of physical-chemical properties and biocompatibility of a microrough and smooth bioactive glass particles.

The purpose of this study was to evaluate physical-chemical and biocompatibility characteristics of a simple synthesis and low cost experimental bioactive glass. Physical and chemical properties were analyzed using scanning electron microscopy (SEM), X-ray energy dispersive (EDX), X-ray fluorescence (XRF) and X-ray diffraction (XRD). The biomaterials were subcutaneously implanted into rats, according to the following groups: G1, PerioGlastrade mark; G2, Biograntrade mark, G3, Experimental Bioactive Glass U (BGU) and G4, Control (Sham). After 7, 15, 21, 45, and 60 days, 5 animals/group/period were sacrificed and the subcutaneous tissue was dissected for histological and histometric analysis, considering inflammatory reaction and granulation area, presence of polymorphonuclear (PMN), monuclear (MN) and fibroblast (F) cells. SEM analysis of biomaterials showed irregular particles with different surface characteristics. EDX showed calcium, oxygen, sodium, phosphorus and silicon; XRF revealed silica oxide (SiO(2)), sodium oxide (Na(2)O), calcium oxide (CaO) and phosphorus oxide (P(2)O(5)). XRD indicated non crystalline phase. Measurement of tissue reaction showed similar results among the experimental groups at 45 and 60 days. No difference was found for PMN, MN and F cell counts. All biomaterials exhibited partial resorption. In conclusion, the experimental bioactive glass analyzed showed physical and chemical characteristics similar to the commercially available biomaterials, and was considered biocompatible, being partially reabsorbed in the subcutaneous tissue.