Abstract
This study was conducted to investigate the effect of blanching treatment (98 °C for 3 and 6 min) and air drying temperature of 40, 50 and 60 °C on the thin layer drying characteristics such as drying time, drying rate constant, effective moisture diffusivity and activation energy, as well as on anthocyanin content of black carrot shreds. It was observed that drying temperature affected the drying rate but blanching did not have an effect on drying time. Three thin layer drying models, i.e. Page, Lewis and Henderson-Pabis were evaluated. The goodness of these models was evaluated based on the coefficient of determination (R2), root mean square error, reduced chi square (χ2) and standard error. Page model showed the best fit to the drying data. The effective diffusivity ranges of 1.4·10-9 to 2.6·10-9 m2/s, 1.3·10-9 to 2.1·10-9 m2/s and 1.5·10-9 to 2.2·10-9 m2/s after 3 or 6 min of blanching and control samples respectively were calculated using Fick's second law. The activation energy of 37.5, 26.0 and 34.6 kJ/(mol·K) of the control samples and samples blanched for 3 or 6 min respectively was determined from the Arrhenius plot. The blanching treatment affected the anthocyanin content to a great extent. The anthocyanin content of (231.7±2.9) and (278.8±7.8) mg per 100 g was recorded in samples blanched for 3 and 6 min and then dried at 60 °C, and (153.0±4.3) and (247.0±5.5) mg per 100 g was recorded at 40 °C as compared to the control of (580.1±1.3) at 60 °C and (466.7±1.1) mg per 100 g at 40 °C.
Highlights
Carrot is one of the most common vegetables used for human nutrition due to its high nutritive value in terms of vitamin and fibre contents [1]
This study was conducted to investigate the effect of blanching treatment (98 °C for 3 and 6 min) and air drying temperature of 40, 50 and 60 °C on the thin layer drying characteristics such as drying time, drying rate constant, effective moisture diffusivity and activation energy, as well as on anthocyanin content of black carrot shreds
The anthocyanin contents of (231.7±2.9) and (278.8± 7.8) mg per 100 g were recorded in the samples blanched for 3 and 6 min and dried at 60 °C, (153.0±4.3) and (247.0±5.5) mg per 100 g were recorded at 40 °C respectively, which was lower than in the control samples: (580.1±1.3) at 60 °C and (466.6±1.1) mg per 100 g at 40 °C
Summary
Carrot is one of the most common vegetables used for human nutrition due to its high nutritive value in terms of vitamin and fibre contents [1]. Russia is the second largest carrot producer, with the United States following a close third. Black or purple carrots with high anthocyanin content have a possibility to be used in food, nutraceutical and pharmaceutical preparations. Black carrot is a seasonal fruit which is highly perishable, especially in its fresh form. It is unique because of its high phytochemical content, of anthocyanins and other phenolic acids, which play an important role in reducing the risk of disease. This phytochemical diversity offers many opportunities in functional food and nutraceutical research
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