Your search keyword '"Lima, Antônio Gilson Barbosa de"' showing total 6 results

1. Maltodextrin as a Drying Adjuvant in the Lyophilization of Tropical Red Fruit Blend.

Author

Paiva, Yaroslávia Ferreira, Figueirêdo, Rossana Maria Feitosa de, Queiroz, Alexandre José de Melo, Santos, Francislaine Suelia dos, Amadeu, Lumara Tatiely Santos, Lima, Antônio Gilson Barbosa de, Lima, Thalis Leandro Bezerra de, Silva, Wilton Pereira da, Moura, Henrique Valentim, Silva, Eugênia Telis de Vilela, Costa, Caciana Cavalcanti, Galdino, Plúvia Oliveira, Gomes, Josivanda Palmeira, and Leão, Douglas Alexandre Saraiva

Subjects

MALTODEXTRIN, TROPICAL fruit, GUAVA, FREEZE-drying, BIOACTIVE compounds, VITAMIN C, LYCOPENE

Abstract

Guava, pitanga and acerola are known for their vitamin content and high levels of bioactive compounds. Thus, the preparation of combinations of these fruits comprises a blend with high nutraceutical potential, yielding a strong and attractive pigmentation material. In this study, the influence of different proportions of maltodextrin on the lyophilization of a blend of guava, acerola and pitanga was evaluated considering not only the physicochemical, physical and colorimetric parameters but also the bioactive compounds in the obtained powders. The blend was formulated from the mixture and homogenization of the three pulps in a ratio of 1:1:1 (m/m), then maltodextrin was added to the blend, resulting in four formulations: blend without adjuvant (BL0), and the others containing 10% (BL10), 20% (BL20) and 30% (BL30) maltodextrin. The formulations were lyophilized and disintegrated to obtain powders. The powders were characterized in terms of water content, water activity, pH, total titratable acidity, ash, total and reducing sugars, ascorbic acid, total phenolic content, flavonoids, anthocyanins, carotenoids, lycopene, color parameters, Hausner factor, Carr index, angle of repose, solubility, wettability and porosity. All evaluated powders showed high levels of bioactive compounds and the increase in maltodextrin concentration promoted positive effects, such as reductions in water content, water activity and porosity and improved flow, cohesiveness and solubility characteristics. [ABSTRACT FROM AUTHOR]

Published

2023

2. Tropical Red Fruit Blend Foam Mat Drying: Effect of Combination of Additives and Drying Temperatures.

Author

Paiva, Yaroslávia Ferreira, Figueirêdo, Rossana Maria Feitosa de, Queiroz, Alexandre José de Melo, Amadeu, Lumara Tatiely Santos, Reis, Carolaine Gomes dos, Santos, Francislaine Suelia dos, Lima, Antônio Gilson Barbosa de, Silva, Wilton Pereira da, Gomes, Josivanda Palmeira, Leite, Daniela Dantas de Farias, and Lima, Thalis Leandro Bezerra de

Subjects

TROPICAL fruit, FOAM, SPRAY drying, GUAR gum, WATER levels, STABILIZING agents, BIOACTIVE compounds

Abstract

Foam mat drying is a widely used technique for liquid products because it has a number of advantages; however, for an efficient process, the choice of additives and temperatures is extremely important. The objective of this study was to evaluate the effect of additives and drying temperatures on the powders obtained from the blend of tropical red fruits, such as acerola, guava, and pitanga. The foam formulations were prepared by mixing the pulps of the three fruits in equal proportions (1:1:1), all added with 6% albumin and 1% stabilizing agent: E1, gum Arabic; E2, guar gum; E3, gelatin. The combinations were subjected to beating, and subsequently, they were dried in an oven with forced air circulation at four temperatures (50 to 80 °C), with a mat thickness of 0.5 cm. The obtained powders showed low levels of water and water activity and high levels of bioactive compounds, colors with a predominance of yellow, intermediate cohesiveness, poor fluidity, and solubility above 50%. The best temperature for obtaining the powders was 60 °C. The formulation that produced the best results for the production of the tropical red fruit blend powder was the combination of albumin and gelatin. [ABSTRACT FROM AUTHOR]

Published

2023

3. Physicochemical Aspects, Bioactive Compounds, Phenolic Profile and In Vitro Antioxidant Activity of Tropical Red Fruits and Their Blend.

Author

Paiva, Yaroslávia Ferreira, Figueirêdo, Rossana Maria Feitosa de, Queiroz, Alexandre José de Melo, Amadeu, Lumara Tatiely Santos, Santos, Francislaine Suelia dos, Reis, Carolaine Gomes dos, Carvalho, Ana Júlia de Brito Araújo, Lima, Marcos dos Santos, Lima, Antônio Gilson Barbosa de, Gomes, Josivanda Palmeira, Moura, Rodrigo Leite, Moura, Henrique Valentim, and Silva, Eugênia Telis de Vilela

Subjects

TROPICAL fruit, BIOACTIVE compounds, LYCOPENE, PEARSON correlation (Statistics), PLANT phenols, GUAVA, PHENOLS, FLAVANOLS

Abstract

The combination of fruit pulps from different species, in addition to multiplying the offer of flavors, aromas and textures, favors the nutritional spectrum and the diversity of bioactive principles. The objective was to evaluate and compare the physicochemical characteristics, bioactive compounds, profile of phenolic compounds and in vitro antioxidant activity of pulps of three species of tropical red fruits (acerola, guava and pitanga) and of the blend produced from the combination. The pulps showed significant values of bioactive compounds, with emphasis on acerola, which had the highest levels in all parameters, except for lycopene, with the highest content in pitanga pulp. Nineteen phenolic compounds were identified, being phenolic acids, flavanols, anthocyanin and stilbene; of these, eighteen were quantified in acerola, nine in guava, twelve in pitanga and fourteen in the blend. The blend combined positive characteristics conferred by the individual pulps, with low pH favorable for conservation, high levels of total soluble solids and sugars, greater diversity of phenolic compounds and antioxidant activity close to that of acerola pulp. Pearson's correlation between antioxidant activity and ascorbic acid content, total phenolic compounds, flavonoids, anthocyanins and carotenoids for the samples were positive, indicating their use as a source of bioactive compounds. [ABSTRACT FROM AUTHOR]

Published

2023

4. Smelling Peppers and Pout Submitted to Convective Drying: Mathematical Modeling, Thermodynamic Properties and Proximal Composition.

Author

Moura, Rodrigo Leite, Figueirêdo, Rossana Maria Feitosa de, Queiroz, Alexandre José de Melo, Santos, Francislaine Suelia dos, Lima, Antônio Gilson Barbosa de, Rego Junior, Pedro Francisco do, Gomes, Josivanda Palmeira, Silva, Wilton Pereira da, Paiva, Yaroslávia Ferreira, Moura, Henrique Valentim, Silva, Eugênia Telis de Vilela, Costa, Caciana Cavalcanti, and Gregório, Mailson Gonçalves

Subjects

THERMODYNAMICS, PEPPERS, GIBBS' free energy, AIR speed, NATURAL foods industry, ARRHENIUS equation

Abstract

Pepper (Capsicum spp.) is among the oldest and most cultivated crops on the planet. Its fruits are widely used as natural condiments in the food industry for their color, flavor, and pungency properties. Peppers have abundant production; on the other hand, their fruits are perishable, deteriorating within a few days after harvesting. Therefore, they need adequate conservation methods to increase their useful life. This study aimed to mathematically model the drying kinetics of smelling peppers (Capsicum chinense) and pout peppers (Capsicum chinense Jacq.) to obtain the thermodynamic properties involved in the process and to determine the influence of drying on the proximal composition of these peppers. Whole peppers, containing the seeds, were dried in an oven with forced air circulation, at temperatures of 50, 60, 70, and 80 °C, with an air speed of 1.0 m/s. Ten models were adjusted to the experimental data, but the Midilli model was the one that provided the best values of coefficient of determination and lowest values of the mean squared deviation and chi-square value in most of the temperatures under study. The effective diffusivities were well represented by an Arrhenius equation, appearing in the order of 10−10 m2·s−1 for both materials under study, since the activation energy of the smelling pepper was 31.01 kJ·mol−1 and was 30.11 kJ·mol−1 in the pout pepper, respectively. Thermodynamic properties in both processes of drying the peppers pointed to a non-spontaneous process, with positive values of enthalpy and Gibbs free energy and negative values of entropy. Regarding the influence of drying on the proximal composition, it was observed that, with the increase in temperature, there was a decrease in the water content and the concentration of macronutrients (lipids, proteins, and carbohydrates), providing an increase in the energy value. The powders obtained in the study were presented as an alternative for the technological and industrial use of peppers, favoring obtaining a new condiment, rich in bioactives, providing the market with a new option of powdered product that can be consumed directly and even adopted by the industry as a raw material in the preparation of mixed seasonings and in the formulation of various food products. [ABSTRACT FROM AUTHOR]

Published

2023

5. Tropical Red Fruit Blends: The Effect of Combination of Additives on Foaming, Drying and Thermodynamic Properties.

Author

Paiva, Yaroslávia Ferreira, Figueirêdo, Rossana Maria Feitosa de, Queiroz, Alexandre José de Melo, Ferreira, João Paulo de Lima, Santos, Francislaine Suelia dos, Reis, Carolaine Gomes dos, Amadeu, Lumara Tatiely Santos, Lima, Antônio Gilson Barbosa de, Gomes, Josivanda Palmeira, Silva, Wilton Pereira da, Maracajá, Patricio Borges, and Costa, Caciana Cavalcanti

Subjects

THERMODYNAMICS, TROPICAL fruit, GIBBS' free energy, GUAVA, WATER efficiency, FOAM, THERMAL diffusivity, ENERGY consumption

Abstract

Blends combine advantageous characteristics of each species, resulting in products with different flavors and nutritional substances. Moreover, transforming them into powder provides numerous advantages. This work evaluated the properties of three blended foam formulations made from the pulps of tropical red fruits (acerola, guava and pitanga) to determine the foam layer drying kinetics and thermodynamic properties. The foam formulations were prepared by mixing the three pulps in equal proportions (1:1:1), all added with 6% albumin and 1% stabilizing agent. The foams were analyzed for density, volumetric expansion, stability and porosity in six mixing times. Subsequently, they were subjected to drying in an oven with forced air circulation at 4 temperatures, with a layer 0.5 cm thick. Seven mathematical models were fitted to the drying kinetics experimental data to determine the effective diffusivity and thermodynamic properties of the samples. The best mixing times were 5 min for the E2 sample and 30 min for the others. Formulation E2 presented the best results in the foam physical properties, and E3 presented the shortest drying times. All models tested were satisfactorily adjusted, but Page's model was the most adequate to describe the process. Sample E3 showed the highest diffusivity and sample E2 the lowest activation energy. The drying temperature increase caused reductions in enthalpy and entropy, as well as an increase in Gibbs free energy, indicating an endergonic process. The combination of additives incorporated into the blend influences the drying process: formulation E2 shows greater efficiency in removing water, and formulation E1 presents the highest energy demand. [ABSTRACT FROM AUTHOR]

Published

2023

6. Utilization of Cumbeba (Tacinga inamoena) Residue: Drying Kinetics and Effect of Process Conditions on Antioxidant Bioactive Compounds.

Author

Ferreira, João Paulo de Lima, Queiroz, Alexandre José de Melo, Figueirêdo, Rossana Maria Feitosa de, Silva, Wilton Pereira da, Gomes, Josivanda Palmeira, Santos, Dyego da Costa, Silva, Hanndson Araujo, Rocha, Ana Paula Trindade, Paiva, Anna Catarina Costa de, Chaves, Alan Del Carlos Gomes, Lima, Antônio Gilson Barbosa de, and Andrade, Romário Oliveira de

Subjects

BIOACTIVE compounds, PHENOLS, ANTIOXIDANTS, ATMOSPHERIC temperature, DRYING, VITAMIN C, FREE radicals, CAROTENOIDS

Abstract

The residue generated from the processing of Tacinga inamoena (cumbeba) fruit pulp represents a large amount of material that is discarded without proper application. Despite that, it is a raw material that is source of ascorbic acid, carotenoids and phenolic compounds, which are valued in nutraceutical diets for allegedly combating free radicals generated in metabolism. This research paper presents a study focused on the mathematical modeling of drying kinetics and the effect of the process on the level of bioactive of cumbeba residue. The experiments of cumbeba residue drying (untreated or whole residue (WR), crushed residue (CR) and residue in the form of foam (FR)) were carried out in a fixed-bed dryer at four air temperatures (50, 60, 70 and 80 °C). Effective water diffusivity (Deff) was determined by the inverse method and its dependence on temperature was described by an Arrhenius-type equation. It was observed that, regardless of the type of pretreatment, the increase in air temperature resulted in higher rate of water removal. The Midilli model showed better simulation of cumbeba residue drying kinetics than the other models tested within the experimental temperature range studied. Effective water diffusivity (Deff) ranged from 6.4890 to 11.1900 × 10−6 m2/s, 2.9285 to 12.754 × 10−9 m2/s and 1.5393 × 10−8 to 12.4270 × 10−6 m2/s with activation energy of 22.3078, 46.7115 and 58.0736 kJ/mol within the temperature range of 50–80 °C obtained for the whole cumbeba, crushed cumbeba and cumbeba residue in the form of foam, respectively. In relation to bioactive compounds, it was observed that for a fixed temperature the whole residue had higher retention of bioactive compounds, especially phenolic compounds, whereas the crushed residue and the residue in the form of foam had intermediate and lower levels, respectively. This study provides evidence that cumbeba residue in its whole form can be used for the recovery of natural antioxidant bioactive compounds, mainly phenolic compounds, with the possibility of application in the food and pharmaceutical industries. [ABSTRACT FROM AUTHOR]

Published

2021