The effect of microwave power levels, frying time, and temperature on mass transfer and acrylamide formation during deep-fat frying of carrot slices was determined.Maximum and minimum moisture loss were measured, respectively, in control samples fried at 170°C for 4 min and samples pretreated with microwave at 7 W/g power and fried at 150°C for 2 min. The highest (0.69 g/g) and lowest (0.42 g/g) oil uptake were observed in control samples fried at 150°C for 4 min and samples pretreated with microwave at 7 W/g power and fried at 150°C for 2 min, respectively. The effective moisture diffusion and activation energy ranged from 4.84 × 10 −10 to 15.41 × 10 −10 m 2 /s and from 6.47 to 11.75 kJ/mol, respectively. The highest (19.83 µg/kg) and the lowest (<4.67 µg/kg) amount of acrylamide formation were, respectively, measured in control and in microwave pretreated samples (with 7 W/g power for 3 min and fried at 150°C for 2 min).Novelty impact statement: Using microwaves as a pretreatment could significantly reduce oil uptake and acrylamide formation in carrot samples. A reduction in acrylamide was observed in this study after increasing the microwave thermal power from 3 to 7 W/g. Some studies have shown that the acrylamide content increases by increasing the thermal power of the microwave. This study reports that the acrylamide content is a function of the processing time, and the increasing thermal power of the microwave reduces the acrylamide content in short processes.
Deep frying is one of the most common operations used in food processing. But it is necessary to use methods to reduce the oil uptake and prevent the formation of toxic substances such as acrylamide, while maintaining the desired features. Accordingly, in the present study, the effect of microwave pre-treatment with the power of 2 and 5W / g and in 15 and 10 minutes respectively, on the amount of oil uptake and the amount of acrylamide formation in fried carrot pieces was investigated at two temperatures of 150˚C and 170˚C and in 2 and 4 minutes duration. According to the results, at all temperatures, with increasing of the frying time, the amount of oil and the acrylamide formation increased in all samples, but at the same frying times, control samples had higher oil uptake and acrylamide formation compared to the pre-treated samples. According to the investigations, the highest oil uptake and the highest amount of acrylamide formation were respectively measured in the samples fried at 150˚C in 4 min (6.12%), and the fried samples at 170˚C and in 4 min (18.49 ppb). However, the lowest amount of oil uptake and acrylamide formation in microwave pre-treated samples (with 5W/g power in 10 minutes) and samples fried at 170˚C in 2 minutes were respectively (3.78%) and (<4.67 ppb).
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