Abstract Due to the by-products generated during the processing of meat, biomolecules derived from these by-products, in the form of protein hydrolysates, have been studied for being used as raw materials to produce food. In the present study, the tilapia slaughtering by-products were hydrolyzed, under 60 oC for 2 hours, and spray-dried under 130 oC. After the drying process, equilibrium isotherms of the by-products were obtained through the dynamic method, under temperatures of 20 oC, 35 oC, and 50 oC. All the equilibrium curves presented type III behavior and in the adjustment of the empirical models, the White and Eyring model represented more properly the experimental data of equilibrium. This model presented the highest value of the determination coefficient and lower values of the Sum of the Squares of Residuals (SSR), Relative Mean Error (RME), and Akaike Information Criteria (AIC). The isosteric desorption heat, calculated by the Othmer method, varied from 2395 to 5682 kJ/kg, for equilibrium moisture contents between 0.09 and 0.30 kg/kg. The equation obtained for the calculation of the isosteric desorption heat of the tilapia by-product hydrolysate can be employed in calculations related to the modeling, simulation, optimization, and control of industrial-scale drying processes. byproducts products meat byproducts, products, hydrolysates food study hydrolyzed 6 hours spraydried spray dried 13 process method 3 5 models SSR, SSR , (SSR) RME, RME (RME) AIC. AIC . (AIC) 239 568 kJkg kJ kg kJ/kg 009 0 09 0.0 030 30 0.3 kgkg kg/kg byproduct product modeling simulation optimization industrialscale industrial scale processes 1 (SSR (RME (AIC 23 56 00 0. 03

Resumo Durante o processamento de carne, subprodutos são gerados. Biomoléculas derivadas desses subprodutos, na forma de hidrolisados proteicos, estão sendo estudadas para sua utilização como matéria-prima na produção de alimentos. No presente estudo, os subprodutos do abate da tilápia foram hidrolisados a 60 °C por 2 h e secos por atomização a 130 °C. Após o processo de secagem, foram obtidas isotermas de equilíbrio para os subprodutos pelo método dinâmico, nas temperaturas de 20 °C, 35 °C e 50 °C. Todas as curvas de equilíbrio apresentaram comportamento do tipo III e, no ajuste dos modelos empíricos, o modelo de White e Eyring representou mais adequadamente os dados experimentais de equilíbrio. Este modelo apresentou o maior valor do coeficiente de determinação e os menores valores da soma dos quadrados dos resíduos, erro médio relativo e Critérios de Seleção de Akaike. O calor isostérico de dessorção, calculado pelo método de Othmer, variou entre 2.395 e 5.682 kJ/kg, para teores de umidade de equilíbrio entre 0,09 e 0,30 kg/kg. A equação obtida para o cálculo do calor isostérico de dessorção do hidrolisado do subproduto da tilápia pode ser empregada em cálculos relacionados a modelagem, simulação, otimização e controle de processos de secagem em escala industrial. carne gerados proteicos matériaprima matéria prima alimentos estudo 6 C 13 dinâmico 3 5 empíricos resíduos Akaike Othmer 2395 395 2.39 5682 682 5.68 kJkg kJ kg kJ/kg 009 0 09 0,0 030 30 0,3 kgkg kg/kg modelagem simulação industrial 1 239 39 2.3 568 68 5.6 00 0, 03 23 2. 56 5.

This study includes the synthesis of a new natural plasticizer obtained through esterification reaction of rice fatty acid and polyols, its physicochemical characterization and its preliminary application in polyvinyl chloride (PVC). Monopropylene glycol, octanol and diethylene glycol were used as polyols for esterification reaction. Catalyst Fascat® 4100, was also added. Viscosity, acidity and hydroxyl index, moisture content, molar mass, chemical composition (by FTIR) and color were determined to characterize the natural plasticizer synthesized. The results were compared with a commercial plasticizer (DOA: di-octyl adipate) derived from petrochemical source and synthesized in laboratory. According to the results, except from color, the natural plasticizer presented similar properties of commercially available plasticizers, such as DOA. Mechanical tests indicated that the addition of the natural plasticizer to PVC films resulted in a significant increase on its elongation at break (371.2%) compared to pure PVC film, indicating a possible application for this plasticizer.

This paper describes the adsorption of Cd2+and Pb2+ions using sodic bentonite clay type Fluidgel modified. The Fluidgelbefore and after chemical modification and thermal activation was characterized by different techniques including X-ray diffraction, thermal analysis, Fourier transform infrared, surface area, helium pycnometry, cation exchange capacity and scanning electron microscopy. Pseudo-first order, pseudo-second order and intra-particle diffusion models were used to analyze the kinetic curves. Equilibrium data were analyzed using Langmuir and Freundlich models. The thermodynamic study indicated that lead adsorption process is endothermic and interactions between clays and solutions of lead occurred spontaneously, while cadmium adsorption revealed an exothermic and spontaneous nature. The maximum removal efficiencies were 97.62% for Cd(II) using Fluidgelmodified chemically and 91.08% for lead by Fluidgel modified chemical and thermally.

Cu (II) removal equilibrium from aqueous solutions using calcined clays "Bofe" and "Verde-lodo" has been studied by batch and fixed-bed in static and dynamic systems, respectively. Analyses were performed for physicochemical characterization of clays using the techniques: X-ray fluorescence (XRF), thermogravimetry (TG), N2 adsorption (BET) and Cationic Exchange Capacity (CEC). Batch experiments were performed at a constant temperature, adjusting the pH of the solution in contact with clays. Adsorption assays in fixed bed were conducted at the flow rate determined through mass transfer zone (MTZ). Langmuir and Freundlich models were adjusted to equilibrium data. The results of characterization indicated that the temperature of 500ºC is best suited for the calcination of the clays. The maximum adsorption capacity was higher for dynamic system than fixed bed compared to static system, enhancing from 0.0748 to 0.1371 and from 0.0599 to 0.22 mmol.g-1 of clay for "Bofe" and "Verde-lodo", respectively.