Abstract
In this paper the kinetics of osmotic dehydration of carrot and the influence of this pretreatment on the post-drying processes and the quality of obtained products are analysed. Osmotic dehydration was carried out in the aqueous fructose solution in two different ways: with and without ultrasound assistance. In the first part of the research, the kinetics of osmotic dehydration was analysed on the basis of osmotic dewatering rate, water loss and solid gain. Next, the effective time of dehydration was determined and in the second part of research samples were initially dehydrated for 30 min and dried. Five different procedures of drying were established on the grounds of convective method enhanced with microwave and infrared radiation. The influence of osmotic dehydration on the drying kinetics and final product quality was analysed. It was found that it did not influence the drying kinetics significantly but positively affected the final product quality. Negligible influence on the drying kinetics was attributed to solid uptake, which may block the pores, hindering heat and mass transfer. It was also concluded that the application of microwave and/or infrared radiation during convective drying significantly influenced the kinetics of the final stage of drying. A proper combination of aforementioned techniques of hybrid drying allows reducing the drying time. Differences between the particular dehydration methods and drying schedules were discussed.
Highlights
Drying is one of the most commonly used preservation methods of perishable products such as fruit and vegetables
It was concluded that the application of microwave and/or infrared radiation during convective drying significantly influenced the kinetics of the final stage of drying
The research presented in this paper aims to analyse the drying processes of carrot pretreated with osmotic dehydration or ultrasound-assisted osmotic dehydration
Summary
Drying is one of the most commonly used preservation methods of perishable products such as fruit and vegetables. This process allows stabilising the raw material by reducing the moisture content and water activity, which are responsible for most of the natural decay processes. Almost every drying technique adversely affects the product quality, reducing its value. The type and degree of product quality change depend on the drying method and process parameters such as temperature and humidity of the drying agent, the velocity of air flow, duration and power of microwaves, infrared or ultrasound enhancement, etc. Excessive shrinkage or shape deformation usually occur [5,6,7], making the product unappealing to the customer
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