Navegando por Assunto "Solvent extraction"

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Acesso aberto (Open Access)
Estudo da extração de cobre utilizando contactores com membranas como alternativa ao processo convencional de extração por solvente
(Universidade Federal do Pará, 2013-12-27) OLIVEIRA, Kleber Bittencourt; FERRAZ, Helen Conceição; http://lattes.cnpq.br/1820877582714129; MACÊDO, Emanuel Negrão; http://lattes.cnpq.br/8718370108324505
This paper studied the extraction of copper using membrane contactors as an alternative to conventional SX process. The relevant process parameters as type and concentration of extractant solvent, the strip solution, operating time and pH were investigated. Furthermore, a mathematical model was developed from a system of partial differential equations resulting from the mass balance in the membrane contactor system, using as the solution methodology of Integral Technique Coupled (CIEA). The experimental studies conducted in this study showed that use of membrane contactors in liquid-liquid extraction of copper is a promising and viable technology, with the potential to replace the method of solvent extraction by direct contact adopted currently yielding 100% extraction LIX 84I copper using 20% (v/v) as extractant, kerosene as solvent and H2SO4 strip solution in an operation time of 80 minutes. The results obtained by mathematical modeling and simulation of the physical problem analyzed in this study were compared with experimental results and shown to be satisfactory, demonstrating the ability of CIEA in treating problems of mass transfer in membrane systems with contactor.
Acesso aberto (Open Access)
Modelagem e simulação do fracionamento de óleos vegetais e do produto líquido orgânico do processo de craqueamento termocatalítico do óleo de palma em colunas multiestágios em contracorrente
(Universidade Federal do Pará, 2016-10-03) COSTA, Elinéia Castro; ARAÚJO, Marilena Emmi; http://lattes.cnpq.br/8983914018546682; MACHADO, Nélio Teixeira; http://lattes.cnpq.br/5698208558551065
In this work, a method was developed employing the commercial process simulator Aspen Hysys using a countercurrent multistage column to the fractioning/deacidification of vegetable oils applying processes such as liquid-liquid extraction, using ethanol as solvent, and supercritical fractioning, with CO2 as solvent. Palm and olive oil were used in the case study. Experimental equilibrium data of multicomponent systems published in the literature were correlated with both NRTL model and RK-Aspen models, the binary interaction parameters obtained from these correlations were used in the simulations. The same procedure was applied to the fractioning/deacidification process of the organic liquid products (OLP) from the thermal-catalytic cracking of palm oil, using supercritical CO2 as solvent. The correlation of liquid-liquid equilibrium data of the systems showed that the NRTL model was able to suitably fit the experimental data for all the studied systems with RMSD between 0.15 to 1.72%. For all the S/F ratios analyzed, simulation results demonstrated, on the 10 stage column, that only when a mixture water+ethanol (12.41%) was used as solvent, the maximum acceptable level of neutral oil loss for industrial physical refining (5%wt) was attained. Correlation of experimental equilibrium data at high pressures indicated that the RK-Aspen model was able to properly fit the equilibrium data for all studied systems, with RMSD from 3.0E-05% to 0.58% for the liquid phase and between 2.0E-06% to 0,02% for vapor phase, for each composition of free fatty acid in the feed. The absolute mean deviations between the supercritical fractioning process simulated with 10 stages using the olive oil model mixture and the experimental results of supercritical fractioning of olive oil in a pilot scale column at 313K, S/F=20, with varying pressure and different fatty acid composition in the feed, were 2.25% for the yield of raffinate stream and 0.15% for the fatty acid concentration in the raffinate stream. The simulations of supercritical fractioning of OLP, with 10-staged columns, showed that the CO2 was able to deacidificate the produced fractions. For both proposed process diagrams with the column 1 using S/F=17 or 19, column 2 for all the studied S/F ratios, presented top streams (extract) containing compositions characteristic of kerosene from petroleum, with lower olefin and oxygenated content compared to the experimental fraction distillated within the same temperature range of petroleum kerosene published in the literature.
Acesso aberto (Open Access)
Obtenção de gordura das sementes de Ucuúba (Virola surinamensis) por meio de extração com CO2 em estado supercrítico: rendimento global, dados cinéticos, ácidos graxos totais e atividade antimicrobiana
(Universidade Federal do Pará, 2015-09-28) CORDEIRO, Renato Macedo; CARVALHO JÚNIOR, Raul Nunes de; http://lattes.cnpq.br/5544305606838748
The Virola surinamensis, popularly known as ucuúba, is a typical tree found in floodplain habitats and along rivers in the Amazon region. The fat extracted from the seeds has a high melting point and is a product appreciated by the cosmetic industry. The objective of this work was to study the extraction of ucuúba seed fat using supercritical fluid and compare, in terms of process yield and composition of the extracts, with those obtained from the organic solvent extraction technique (via soxhlet). The extraction technique Supercritical Fluid Extraction (SFE) was used because it is regarded as a clean technology, economically attractive, and environmentally safe, avoiding the consumption of large amounts of organic solvents, which are often expensive and potentially harmful. The supercritical extracts of ucuúba seeds were obtained at temperatures of 40, 60 and 80 °C, combined with a pressure of 350 bar, the solvent density varied between 789.2 and 935.6 kg / m3, and a flow of 2.7 L / min. The highest yield obtained using supercritical CO2 was 64.39% for the extraction condition of 350 bar and 80 °C. The yield for the extraction via soxhlet was 61.38%. The mass transfer models of Goto et al. (1993), Esquivel et al. (1999), Tan and Lio (1989), Barton (1991) and Martinez et al. (2003) were employed to describe the extraction kinetics using supercritical fluid. The models that best described the extraction kinetics, with low average deviations, were the models of Martinez et al. (2003) and Goto et al. (1991). The fatty acid profile analysis showed that the ucuúba fat is composed predominantly of saturated fatty acids, mainly of myristic and lauric acids. The antimicrobial activity of the fats obtained was tested on the following organisms: Candida albicans, Staphylococcus aureus and Escherichia coli. Only the bacterium Staphylococcus aureus showed zone of inhibition, ranging from 10 to 11 mm.
Acesso aberto (Open Access)
Simulação do processo de desacidificação do produto líquido orgânico do craqueamento termo catalítico de óleo de palma
(Universidade Federal do Pará, 2015-07-02) SANTOS, André Luiz Bonelar dos; ARAÚJO, Marilena Emmi; http://lattes.cnpq.br/8983914018546682; MACHADO, Nelio Teixeira; http://lattes.cnpq.br/5698208558551065
The suggested approach to lead this work aims at the simulation comparative analysis between two process routes, both able to be applied in the deacidification process and both responsible to adequate the Organic Liquid Product (OLP) acid obtained by the process of Thermocatalytic cracking of oil palm for separation of the fractions in derivatives step, in order to define which process performs the higher operational efficiency. To elaborate the process flow diagram it was used the process simulator ASPEN HYSYS Version 8.4, part of the package Aspen ONE from Aspen Technology. The analyzed cases were the liquid-liquid extraction and the fractional distillation. For the acidification process by liquid-liquid extraction the flow diagram was designed through three extraction stages in series, followed by two separator vessels and two distillation columns, one of them containing 10 theoretical plates for recovery of the hydrocarbons contained in the refined stream, and the other containing 05 theoretical plates to suit the acidity contained in the stream with high hydrocarbonets level to the limit set in the ANP standard. For the acidification process via fractional distillation it was designed a process flow diagram which consists of a column with 25 theoretical plates. In the simulation it was evaluated the impacts on yield and energy consumption of the process variations caused by the acidity of the feed stream, water content of the ethanol used as the solvent, number of plates of the column and energy recovery initiatives lost along the flow . In the simulated conditions, both processes have proven to be effective in the acidification process of the PLO, being obtained from the liquid-liquid extraction 80% and the fractional distillation 91% of the total acidity removal, however, the fractional distillation proved to be more effective for presenting an operating cost lower than the 34.1% obtained by liquid-liquid extraction.