Natural Drying of Astringent and Non-Astringent Persimmon "Rojo Brillante". Drying Kinetics and Physico-Chemical Properties

Natural Drying of Astringent and Non-Astringent Persimmon "Rojo Brillante". Drying Kinetics and Physico-Chemical Properties

Persimmon ( L.f.) crop has markedly increased in Spain, and "Rojo Brillante" persimmon is the main cultivated variety. This astringent cultivar requires de-astringency treatment before commercialization, which may involve an extra cost. Its short commercial season implies handling large vo...

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Bibliographic Details
Published in:Foods Vol. 10; no. 3; p. 647
Main Authors: González, Cristina M, Gil, Rebeca, Moraga, Gemma, Salvador, Alejandra
Format: Journal Article
Language:English
Published: Switzerland MDPI 18-03-2021
MDPI AG
Subjects:
dehydrated persimmon
Diospyros kaki
drying rate
post-harvest losses
thin-layer modeling
Diospyros kaki
dehydrated persimmon
post-harvest losses
thin-layer modeling
drying rate
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Summary:Persimmon ( L.f.) crop has markedly increased in Spain, and "Rojo Brillante" persimmon is the main cultivated variety. This astringent cultivar requires de-astringency treatment before commercialization, which may involve an extra cost. Its short commercial season implies handling large volumes of fruits with consequent postharvest losses. Therefore, the development of derived added-value products is of much interest. In this study, astringent and non-astringent "Rojo Brillante" persimmons were dehydrated by following a natural drying method used in Asia. The drying kinetics and physico-chemical properties were analyzed for 81 days. The results indicated subsequent reductions in weight, water content, and water activity throughout the drying process, and the equatorial diameter decreased. All the employed thin-layer mathematical models were suitable for representing the drying characteristics of both products with similar behavior. The effective water diffusivity values were 5.07 × 10 m s and 6.07 × 10 m s for astringent and non-astringent persimmon samples, respectively. The drying treatment significantly decreased the soluble tannins content, and the astringent samples obtained similar values to those obtained for the non-astringent samples in 20 days. The external and internal flesh of the astringent fruit remained orange through the drying period, while brown coloration in the non-astringent fruit was observed after 57 drying days. Therefore, prior de-astringency treatment would not be necessary.
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ISSN:2304-8158
2304-8158
DOI:10.3390/foods10030647