Modelling the kinetics of microwave drying of shallot (Allium cepa) slices

Convective drying is typically used to dry shallot ( Allium cepa ) commercially. However, a long drying time with a relatively low efficiency has led to the pursuit of new and improved drying methods. Microwave drying was chosen to be used due to its numerous advantages such as improved drying time, high drying efficiency and better product quality. In this research, three microwave power (180 W, 300 W, 450 W) and convective drying at 100°C were used. Results showed that drying kinetics (moisture content and drying rates) decreased the fastest at higher microwave power and the slowest using convective drying. In order to determine the best model to describe the thin-layer drying kinetics, four semi-empirical models were used namely Newton, Page, Logarithmic and Two-term models. Page model was found to be the best in describing the thin-layer microwave drying kinetics. Effective diffusivity values increased with higher microwave power and were found to be in the range of 6.62 × 10 −6 m 2 /s to 3.69 × 10 −5 m 2 /s with convective drying being the lowest (6.62 × 10 −6 m 2 /s) and 450W being the highest (3.69 × 10 −5 m 2 /s). Microwave drying is therefore able to improve drying kinetics compared to convective drying.