Abstract
A mathematical modeling of thin‐layer drying of jujubes in a convective dryer was established under controlled conditions of temperature and velocity. The drying process took place both in the accelerating rate and falling rate period. We observed that higher temperature reduced the drying time, indicating higher drying rates of jujubes. The experimental drying data of jujubes were used to fit ten different thin‐layer models, then drying rate constants and coefficients of models tested were determined by nonlinear regression analysis using the Statistical Computer Program. As for all the drying models, the Weibull distribution model was superior and best predicted the experimental values. Therefore, this model can be used to facilitate dryer design and promote efficient dryer operation by simulation and optimization of the drying processes. The volumetric shrinkable coefficient of jujubes decreased as the drying air temperature increased.
Highlights
Jujube Zizyphus jujuba Mill. is a characterized Chinese fruit, whose cultivation area has reached more than 1.5 million hectares in China
The final moisture content of samples dried under different conditions ranged from 28% to 25% w.b
The drying rate is higher for higher air temperature
Summary
Jujube Zizyphus jujuba Mill. is a characterized Chinese fruit, whose cultivation area has reached more than 1.5 million hectares in China. Is a characterized Chinese fruit, whose cultivation area has reached more than 1.5 million hectares in China. A lot of products are processed from jujubes, such as candied and drunk jujubes, and jujube tea, juice, and sugar. The vast majority of jujubes are dried and sold at home and abroad, except that a small proportion are reserved for fresh eating 1. Jujubes play an important role in human nutrition as sources of sugar, vitamins, protein, and minerals 2. Besides been used as food, jujube has been commonly used in traditional Chinese medicine. Jujubes tend to spoil because of their high moisture contents, which result in the production losses of 25–30% after harvest
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