Solar drying modes of saladette tomatoes slices on phytochemicals and functional properties

•Greenhouse and solar-tunnel dryers may led to functional food additives from dehydrated tomatoes.•Solar-based drying methods modify the phytochemicals concentration of Saladette tomato slices.•Proanthocyanidins and dietary fiber were highly correlated to functional properties of tomatoes.•Identifyi...

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Bibliographic Details
Published in:Solar energy 2023-09, Vol.262, p.111903, Article 111903
Main Authors: Denise, Herrera Mayra, Álvarez-Sánchez, F.I., Ortiz-Rodríguez, N.M., Flores-Prieto, J.J.
Format: Article
Language:English
Subjects:
Direct solar drying
Functional properties
Indirect solar drying
Phytochemical components
Tomatoes
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Summary:•Greenhouse and solar-tunnel dryers may led to functional food additives from dehydrated tomatoes.•Solar-based drying methods modify the phytochemicals concentration of Saladette tomato slices.•Proanthocyanidins and dietary fiber were highly correlated to functional properties of tomatoes.•Identifying the effect of the drying method on functional components may expand tomato’s market value. The paper analyses three solar drying modes for tomatoes slices, correlating drying kinetics with their concentration of phytochemicals and functional properties, such as inhibition of free radicals and digestive enzymes. The solar drying included direct drying by a greenhouse (DD), indirect solar dryer operating in continuous (IC) and discontinuous (ID) modes, and all were compared to those obtained by lyophilization (control). For DD, IC and ID, the drying time and drying constant were 30 h:0.0028, 25 h:0.0054, and 8.5 h:0.0061. The IC had the lowest drying time, ID represented only 36.2% and 62.0% of solar heating by DD and IC. Both indirect methods were important for phytochemical content. Proanthocyanidins, soluble and insoluble dietary fiber were highly correlated to the drying method and functionality of dried tomato. The effect of the solar drying method on critical functional components may allow obtaining functional food additives based on dehydrated tomatoes, with an air heating expenditure of 2.1–5.8 kWh/kg.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2023.111903