ABSTRACT
OBJECTIVES: This study aims to evaluate the size-dependent toxicity of spherical silver nanoparticles (Ag NPs) to an endemic benthic organism, Glyptotendipes tokunagai. METHODS: Ag nanoparticles of three nominal sizes (50, 100, and 150 nm) capped with polyvinyl pyrrolidone (PVP-Ag NPs) were used. Their physicochemical properties, acute toxicity (48 hours), and bioaccumulation were measured using third instar larvae of G. tokunagai. RESULTS: The aggregation and dissolution of PVP-Ag NPs increased with exposure time and concentration, respectively, particularly for 50 nm PVP-Ag NPs. However, the dissolved concentration of Ag ions was not significant compared with the median lethal concentration value for AgNO3 (3.51 mg/L). The acute toxicity of PVP-Ag NPs was highest for the smallest particles (50 nm), whereas bioaccumulation was greatest for the largest particles (150 nm). However, larger PVP-Ag NPs were absorbed and excreted rapidly, resulting in shorter stays in G. tokunagai than the smaller ones. CONCLUSIONS: The size of PVP-Ag NPs significantly affects their acute toxicity to G. tokunagai. In particular, smaller PVP-Ag NPs have a higher solubility and stay longer in the body of G. tokunagai, resulting in higher toxicity than larger PVP-Ag NPs.
Subject(s)
Chironomidae , Ions , Larva , Nanoparticles , Polyvinyls , Silver , SolubilityABSTRACT
OBJECTIVES: This study aims to evaluate the size-dependent toxicity of spherical silver nanoparticles (Ag NPs) to an endemic benthic organism, Glyptotendipes tokunagai. METHODS: Ag nanoparticles of three nominal sizes (50, 100, and 150 nm) capped with polyvinyl pyrrolidone (PVP-Ag NPs) were used. Their physicochemical properties, acute toxicity (48 hours), and bioaccumulation were measured using third instar larvae of G. tokunagai. RESULTS: The aggregation and dissolution of PVP-Ag NPs increased with exposure time and concentration, respectively, particularly for 50 nm PVP-Ag NPs. However, the dissolved concentration of Ag ions was not significant compared with the median lethal concentration value for AgNO3 (3.51 mg/L). The acute toxicity of PVP-Ag NPs was highest for the smallest particles (50 nm), whereas bioaccumulation was greatest for the largest particles (150 nm). However, larger PVP-Ag NPs were absorbed and excreted rapidly, resulting in shorter stays in G. tokunagai than the smaller ones. CONCLUSIONS: The size of PVP-Ag NPs significantly affects their acute toxicity to G. tokunagai. In particular, smaller PVP-Ag NPs have a higher solubility and stay longer in the body of G. tokunagai, resulting in higher toxicity than larger PVP-Ag NPs.
Subject(s)
Chironomidae , Ions , Larva , Nanoparticles , Polyvinyls , Silver , SolubilityABSTRACT
Este trabalho teve como objetivo a concepção e o teste de uma unidade de peneiramento forçado, utilizada para o pré-tratamento do esgoto bruto com vistas à redução do tamanho de partículas de matéria orgânica. A unidade de peneiramento forçado (UPF) era constituída de uma peneira metálica (abertura de malha de 1 mm) inserida na tubulação de recalque através da qual o esgoto efluente era bombeado. O peneiramento forçado resultou em maior concentração de partículas com diâmetro entre 1,8 e 30 µm, sem que houvesse retenção de material particulado. Todavia, a UPF não influenciou na redução/retenção de DQO TOTAL do esgoto bruto.
The work focused on the conception and test of a forced sieving unit, used for the pre-treatment of raw sewage aiming at the reduction of organic matter particle size. The pre-treatment unit involved the use of a metallic sieve (1 mm cut-off) assembled inside the pipeline through which the influent sewage was pumped. The results indicated that the forced sieving resulted in a higher concentration of particles with range diameter between 1.8 and 30 µm, without the retention of particulate material. However, the forced sieving unit did not influence the reduction/retention of COD TOTAL of the raw sewage.
ABSTRACT
O trabalho consistiu na avaliação do desempenho de um reator UASB tratando esgoto doméstico pré-tratado em uma unidade de peneiramento forçado (UPF), resultando na redução do tamanho médio de partículas da matéria orgânica afluente. Os experimentos foram conduzidos em dois reatores UASB em escala de demonstração idênticos, sendo um precedido da UPF e o outro utilizado como controle. Os resultados apontaram que, após a adaptação da biomassa às novas condições cinéticas e hidráulicas (reduzido TDH seguido de alta carga biológica aplicada), a redução do tamanho das partículas, na faixa de 1,8 a 30 µm, resultou na seleção de uma comunidade microbiana de maior atividade (atividade metanogênica específica de 0,072 g DQO/g STV.dia, quatro vezes superior à do reator controle). Isso propiciou um melhor desempenho do reator UASB precedido da UPF, o qual apresentou uma maior eficiência de remoção de DQO TOTAL (65 versus 54 por cento no reator controle), e um efluente com menor DQO PARTICULADA (48 versus 74 mg/L no reator controle).
The work aimed at evaluating the performance of an UASB reactor treating domestic sewage pre-treated in a Forced Sieving Unit (FSU) which resulted in size reduction of the influent organic matter particles. The experiments were carried out in two identical demonstration-scale UASB reactors, one with a FSU upstream and the other used as control reactor. The results showed that, after biomass adaptation to new kinetic and hydraulic conditions (low hydraulic detention time followed by high sludge load), the particles size reduction, in the range of 1.8 to 30 µm, resulted in a microbial community selection with higher activity (specific methanogenic activity of 0.072 g COD/g VTS.day four times higher than in the control reactor). This enabled a better performance of the UASB reactor with the FSU, which showed a higher removal efficiency in terms of COD TOTAL (65 versus 54 percent in the control reactor), and an effluent with lower concentration of COD PARTICULATE (48 versus 74 mg/L in the control reactor).