Influência da espessura na cinética de secagem de fatias de beterraba

Almeida, Raphael Lucas Jacinto; Santos, Newton Carlos; Silva, Virgínia Mirtes de Alcântara; Ribeiro, Victor Herbert de Alcântara; Barros, Eliélson Rafael; Cavalcante, Josilene de Assis; Queiroga, Anna Paula Rocha de; Luiz, Márcia Ramos; Nascimento, Aisla Rayanny Barbosa do; Nunes, Jaqueline Siqueira

doi:10.33448/rsd-v9i3.2940

RSD

2020

DOI: 10.33448/rsd-v9i3.2940

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Influência da espessura na cinética de secagem de fatias de beterraba

Raphael Lucas Jacinto Almeida

Newton Carlos Santos

Virgínia Mirtes de Alcântara Silva

et al.

Abstract: The present work aims to evaluate the influence of thickness on the drying kinetics of beet slices and to adjust mathematical models (empirical and diffusive) to experimental data. The beets were cut in three different thicknesses (4, 6 and 8 mm) and the drying kinetics were carried out in an air circulation oven with a speed of 1.5 ms-1, at a temperature of 60 ºC. The empirical (Lewis, Page and Handerson and Pabis) and diffusive mathematical models considering the infinite wall geometry and the boundary condi… Show more

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“…when studying the production of snacks from kiwi slices, Santos, da when studying the effects of ultrasound pretreatment on kinetics and thermodynamic properties of the drying process of guava slices, andAlmeida et al (2020) when studying the influence of thickness on the drying kinetics of beet slices.…”

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Probiotic coating applied to papaya slices for high quality snack production by convective drying

Monteiro

Silva

Monteiro

et al. 2021

Food Processing Preservation

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Incorporation of probiotic bacteria in food is a challenge for the industry, given the sensitivity of probiotic cultures to process conditions. The objective of this study was to coat papaya slices with probiotic filmogenic solution to obtain dehydrated probiotic papaya slices. The probiotic filmogenic solution was applied as an edible coating on papaya slices before drying operation at temperatures of 50, 60, and 70°C. The Page model showed the best fit for all kinetics (R² > 0.9988). The use of filmogenic solution to incorporate the probiotic in papaya slices showed satisfactory results, with a reduction of 1.30 LogCFU g −1 at the end of drying at 70°C, reduced shrinkage, resulting in greater conservation of their structure and compounds phenolics. The thermodynamic properties indicate that the coated papaya slices need more energy to start the diffusion process and have a darker color and firmer texture profile. Novelty impact statement:The difference of this study is the evaluation of the potential use of a filmogenic solution based on gelatin and inulin in the incorporation of probiotic in dried fruit. In addition, the use of edible coating as a pretreatment for drying fruits gives interesting technological characteristics to the dried product, increasing its nutritional value.

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mentioning

confidence: 99%

Probiotic coating applied to papaya slices for high quality snack production by convective drying

Monteiro

Silva

Monteiro

et al. 2021

Food Processing Preservation

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Drying kinetics, extraction kinetics and microencapsulation of antioxidant bioactive compounds of pitaya (Hylocereus undatus) peel

et al. 2023

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Influência da espessura na cinética de secagem de fatias de beterraba

Cited by 2 publications

References 15 publications

Probiotic coating applied to papaya slices for high quality snack production by convective drying

Probiotic coating applied to papaya slices for high quality snack production by convective drying

Drying kinetics, extraction kinetics and microencapsulation of antioxidant bioactive compounds of pitaya (Hylocereus undatus) peel

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