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Experimental Study and Mathematical Modeling of Convective Thin-Layer Drying of Apple Slices

Mohammad Jafar Royen, Abdul Wasim Noori, Juma Haydary

2020Processes56 citationsDOIOpen Access PDF

Abstract

This work represents an experimental study and mathematical modeling of convective apple slice drying. The influence of multiple process parameters such as temperature, air humidity, air velocity and slice thickness on process kinetics, product water activity and parameters of empirical models has been investigated. Drying characteristics of apple slices were monitored at temperatures of 40, 45 and 50 °C, air velocities of 0.6, 0.85 and 1.1 m/s., slice thicknesses of 4, 6, 8, 10 and 12 mm, and in relative air humidity ranges of 25–28, 35–38 and 40–45%. During the process, samples were dried from an initial moisture content of 86.7% to that of 20% (w.b), corresponding to product water activity of 0.45 ± 0.05. By increasing the temperature from 40 to 50 °C, the time for reaching the required product water activity decreased by about 300 min. Sample thickness is the most significant parameter; by increasing the slice thickness from 4 to 12 mm, the time required to achieve the required water activity increased by more than 500 min. For all experimental runs, parameters of five different thin-layer empirical models were estimated. A thin-layer model sensible to process conditions such as temperature, air velocity, layer thickness and air relative humidity was developed and statistically analyzed.

Topics & Concepts

Relative humidityAir velocityWaferMaterials scienceHumidityThin layerWater contentConvectionWater activityAir temperatureLayer (electronics)MoistureComposite materialMeteorologyMechanicsNanotechnologyPhysicsGeotechnical engineeringEngineeringFood Drying and ModelingPostharvest Quality and Shelf Life ManagementMicroencapsulation and Drying Processes
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