To clarify the effects of far-infrared drying technology on the drying kinetics and quality of broccoli rhizomes, broccoli rhizomes were dehydrated at 60, 65, 70, 75 and 80 degrees C, respectively. Eight thin-layer drying mathematical models were used to explore the drying kinetic characteristics and comprehensively evaluate their quality. The results showed that the higher the drying temperature, the shorter the time required to dry the broccoli rhizomes to the endpoint, and the higher the drying rate. The drying temperature was 80 degrees C, the shortest drying time was 360 min, and the average drying rate was 4.72 g<middle dot>g(-1)<middle dot>min(-1). The longest drying time at 60 degrees C was 660 min, and the minimum average drying rate was 1.99 g<middle dot>g-1<middle dot>min-1. The effective diffusion coefficients of moisture at different drying temperatures were 1.22 x 10(-6), 1.25 x 10(-6), 1.34 x 10(-6), 1.46 x 10(-6) and 1.55 x 10(-6) m(2)/min, respectively. The activation energy was calculated to be 12.26 kJ/mol by the linear relationship between the effective moisture diffusion coefficient and time. From the thermodynamic parameters, the drying of broccoli rhizomes is a non-spontaneous process, and it is necessary to absorb heat from the medium to achieve dehydration. With an increase in the drying temperature, the drying effect is better. The fitting results of eight mathematical models showed that Modified Page, Page, and Wang and Singh were the best mathematical models for the far-infrared drying kinetics of the broccoli rhizomes. The membership function method comprehensively evaluated the quality of the broccoli rhizome dry products. The comprehensive order was 60 degrees C > 65 degrees C > 75 degrees C > 70 degrees C > 80 degrees C. When the temperature was 60 degrees C, the physicochemical properties and nutritional quality of broccoli rhizome were well preserved, and the quality was the best. Therefore, 60 degrees C is the best temperature for broccoli rhizome drying. The results provide a theoretical reference for further improving the far-infrared drying quality of broccoli rhizomes.
