Abstract
This work focused on the browning induction period (BIP) during onion drying and understanding the impact of selected static conditions and cyclodextrin addition on the BIP. Under static conditions (between 40 and 80°C and betwen 0.11 and 0.98 equilibrium relative humidity, ERH), the BIP due to nonenzymatic reactions was evident but apparently reduced by enzymatic browning reactions at 40°C. Cyclodextrin usually inhibited browning from both reactions under some conditions, whereas it stimulated browning under the combined conditions of an ERH of 0.58 and 0.75 and temperatures of 40 and 60°C. The proposed interaction polynomial models successfully cover both enzymatic and nonenzymatic browning experienced at the initially low and then high temperatures used in food drying. These models can be useful for a food drying process design to minimize browning.
Notes
a R 2 = coefficient of determination. I, ERH, and T are BIP (h), equilibrium relative humidity, and temperature (K), respectively.
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