CONVECTIVE DRYING CHARACTERISTICS OF EGGPLANT SLICES

The effects of air temperature and sample thickness on the drying kinetics of blanched/unblanched eggplant slices were investigated. Eggplant slices were dried as single layers with thicknesses of 0.5 and 1 cm in the range of 50–80C of drying air temperature in a cabinet dryer. Moisture transfer from eggplant slices was described by applying Fick's diffusion model. The values of effective diffusivity varied from 0.93  ×  10 −10 to 8.84  ×  10 −10  m 2 /s, depending on drying conditions. Effective diffusivity values increased with increasing temperature. The temperature dependence of the effective diffusivity was found to follow the Arrhenius relationship. The values of activation energy ( E a ) varied from 20.12 to 30.83 kJ/mol for blanched/unblanched eggplant slices. A nonlinear regression procedure was used to fit two semi‐theoretical models available in the literature to the experimental moisture loss data. The models were compared based on the coefficient of determination, the reduced chi‐square and the root mean square error between the observed and predicted moisture ratios. The Page model was found to be most suitable in describing the drying characteristics of eggplant slices.PRACTICAL APPLICATIONS The blanching treatment, followed by hot‐air drying, may provide a practical method for the preservation of eggplant and the production of dried eggplant slices. The objective of this research was to determine the thin‐layer drying characteristics of eggplants, to observe the effect of process parameters such as drying temperature and slice thickness, and to calculate effective diffusivity and activation energy for the drying of eggplant slices. The dried eggplants could be used in preparation of different kinds of meals.