Author
Listed:
- Renato Costa da Silva
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Wilton Pereira da Silva
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Josivanda Palmeira Gomes
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Alexandre José de Melo Queiroz
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Rossana Maria Feitosa de Figueirêdo
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Antonio Gilson Barbosa de Lima
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Ana Paula Trindade Rocha
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Laerson Duarte da Silva
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- João Paulo de Lima Ferreira
(Department of Agricultural Engineering, Universidade Federal de Campina Grande, Campus I, Campina Grande 58428-830, Brazil)
- Dyego da Costa Santos
(Instituto Federal do Rio Grande do Norte, Natal 59078-970, Brazil)
- Romario Oliveira de Andrade
(Instituto Federal de Alagoas, Maceió 57020-600, Brazil)
Abstract
The objective of this work was to intermittently and continuously dry “Neve” melon seeds and study their behavior. The seeds were dried in a fixed-bed dryer at a temperature of 60 °C under the influence of air velocity of 1 m s −1 , followed by the prediction of drying kinetics, including that of intermittent processes with its effective time (pseudo-continuous drying) and tempering time (intermittent drying). The dried seeds were crushed to produce flour. The flours were evaluated for physicochemical parameters. To describe drying kinetics (continuous and intermittent drying) of “Neve” melon seeds, empirical models were used, including a new model proposed in this article to describe intermittent drying when the period of intermittence is included in the process. An optimization software was developed (LS Optimizer) and used to determine parameters (and their uncertainties) of the intermittent drying. The parameters of empirical models, used to describe continuous and pseudo-continuous drying, were determined by LAB Fit Curve Fitting Software. The Page model was the one that best fitted in the prediction of the experimental data of continuous and pseudo-continuous drying kinetics of seeds. A new model proposed in this work, based on Page and Lewis equations, was able to predict the kinetics of intermittent drying processes including the tempering time. The flours showed moisture content below 6%, and intermittent drying preserved proteins and lipids more than continuous drying, especially with drying and tempering periods of 10 and 20 min, respectively.
Suggested Citation
Renato Costa da Silva & Wilton Pereira da Silva & Josivanda Palmeira Gomes & Alexandre José de Melo Queiroz & Rossana Maria Feitosa de Figueirêdo & Antonio Gilson Barbosa de Lima & Ana Paula Trindade , 2022.
"A New Empirical Model for Predicting Intermittent and Continuous Drying of “Neve” Melon ( Cucumis melo sp.) Seeds,"
Agriculture, MDPI, vol. 12(3), pages 1-13, February.
Handle:
RePEc:gam:jagris:v:12:y:2022:i:3:p:328-:d:757641
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