Drying and b-carotenes retention kinetics were predicted using models in relative humidity (RH) drying condition. This was achieved by drying carrot slices using RH-convective hot-air dryer at 60, 70 and 80°C under RH (10% 20% and 30%) conditions at 2.0 m/s air velocity. Three mathematical models describing thin layer were compared to their goodness of fit in terms of coefficient of correlation (R 2), root mean square error (RMSE) and reduced Chi square (v 2). The Wang and Singh model could satisfactorily describe RH-convective drying of carrot slices with R 2 , RMSE and v 2 in the ranges of 0.996-0.999, 5.4 9 10-4-9.4 9 10-4 and 0.0150-0.03353 respectively. The results reveal that a range of 3.61-8.2% retention of bcarotene was observed for every 10% increase in RH in various drying air temperature. In summary, higher temperatures were mainly responsible for b-carotenes degradation however this can be mitigated when drying is conducted under higher RH. Keywords b-Carotene Á Carrot Á Drying Á Relative humidity Á Modelling List of symbols R 2 Coefficient of correlation v 2 Chi square RMSE Root mean square error E a Activation energy DG Gibbs free energy change DH Enthalpy change DS Entropy change DE Ã Total color difference D eff Effective moisture diffusivity RH Relative humidity k; k 1 ; a; n and b Kinetic constants C Arrhenius constant d.m. Dry matter Aw Water activity r Person's coefficient of correlation Electronic supplementary material The online version of this article (
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