ABSTRACT
Abstract This study aimed to evaluate the effects of variables on the process of lipases production by Aspergillus niger C by submerged fermentation (SmF). The production assays were performed in shake flasks for 72 hours at 150 rpm and 32°C. First, a fractional factorial design 25-1 (FFD) was carried out to evaluate the effect of the following process variables: sucrose, ammonium sulphate, soybean oil, yeast extract concentration and pH. After the selection of the variables that significantly influenced the lipase production, a central composite rotational design 22 (CCRD) was used, aiming to find the most favorable operational conditions. The selected assay condition (15.0 g.L-1 sucrose, 4.0 g.L-1 ammonium sulphate, 4.0 g.L-1 soybean oil and 1.0 g.L-1 yeast extract at pH 5.0) was the one that presented a lipase activity of 27.46 U.mL-1. It was very close to that best assay (30.76 U.mL-1), but using half of the inducer concentration, consequently reducing process cost. The kinetics of lipase production showed that the highest specific activity was 57.17 U.mg-1. The pH and temperature effects on lipase activity produced in this study was investigated. The optimum activity was found in a more acidic pH (5.0-6.0) and 55°C.
Subject(s)
Aspergillus niger/enzymology , Lipase/analysis , Research Design , FermentationABSTRACT
This paper presents experimental data of the biosorption of manganese onto Sargassum filipendula in both batch and fixed-bed column systems. Batch equilibrium data were used for nonlinear fittings of the Langmuir and Freundlich isotherms. A mathematical model based on mass balances in the fluid and in the sorbent was applied to represent the experimental fixed-bed column data. The utilization of isotherm parameters from the batch experiments in the breakthrough model implied a significant mismatch in relation to the laboratory data. Alternatively, additional fixed-bed column data provided new parameters for the isotherm evaluation, and the corresponding simulated profile of the breakthrough curve reached better agreement to the experimental results.
Subject(s)
Manganese/metabolism , Sargassum/metabolism , Sargassum/chemistry , Waste Disposal, Fluid , Adsorption , Metals, Heavy , Temperature , WastewaterABSTRACT
This work presents some results on the use of microbes from the genus Bacillus for uptake of cadmium, zinc, copper and lead ions. Maximum copper bioaccumulations were 5.6 mol/g biomass for B. sphaericus, 5.9 mol/g biomass for B. cereus and B. subtilis, and 6.4 mol/g biomass for Bacillus sp. Maximum zinc bioaccumulations were 4.3 mol/g biomass for B. sphaericus, 4.6 mol/g biomass for B. cereus, 4.8 mol/g biomass for Bacillus sp. and 5.0 mol/g biomass for B. subtilis. Maximum cadmium bioaccumulations were 8.0 mol/g biomass for B. cereus, 9.5 mol/g biomass for B. subtilis, 10.8 mol/g biomass for Bacillus sp. and 11.8 mol/g biomass for B. sphaericus. Maximum lead biomaccumulations were 0.7 mol/g biomass for B. sphaericus, 1.1 mol/g biomass for B. cereus, 1.4 mol/g biomass for Bacillus sp. and 1.8 mol/g biomass for B. subtilis. The different Bacillus strains tested presented distinct uptake capacities, and the best results were obtained for B. subtilis and B. cereus.(au)
Subject(s)
Bacillus , Bioaccumulation , Metals, Heavy , Biomass , Cadmium , Copper , Lead , ZincABSTRACT
A acumulaçäo de Cadmio a partir de soluçöes contaminadas com o metal foi estudada através do emprego de 3 diferentes microalgas. Dentre as espécies testadas a Chlorella homosphaera mostrou maior poder de acumulaçäo comparada com células de Scenedesmus quadricauda e Chlorella homosphaera e Scenedesmus quadricauda foram consideravelmente afetadas pela presen
Subject(s)
Cadmium Metallicum , Chlorella/chemistry , Chlorophyta/chemistryABSTRACT
Este trabalho descreve alguns estudos de absorçäo de cádmio por células de Chlorella homosphaera livres e imobilizadas em alginato, bem como a absorçäo devida à matriz polimérica isenta de células em soluçöes de cádmio na faixa de concentraçöes de 8,7 a 45,0 mg/l. A captaçäo do metal foi mais efetiva com o uso de células livres até a concentraçäo de 26,8 mg/l do metal. Os resultados obtidos com emprego do alginato e células aprisionadas em alginato estäo provavelmente associados à porosidade da matriz e à densidade celular dentro das partículas de alginato