Abstract
The objectives of the study on a continuous flow hot air dryer combined with radio frequency heating at different temperatures (HA/RF) (38 °C, 42 °C, 46 °C, and 50 °C) in a large-scale process compared with conventional continuous flow hot air drying (HA) were (1) to investigate the drying characteristics, drying kinetics, and milling quality of the process and (2) to observe the cooking quality and compare the sensory differences of the cooked rice after treatment. The drying characteristics and moisture diffusivity showed that the higher the radio frequency (RF) heating temperature, the shorter the drying time. The specific energy consumption and energy cost decreased when the RF heating temperature increased. The optimal condition in terms of fissure percentage was HA/RF42. In addition, there were no significant differences in head rice yield and white rice color determination, amylose content, texture profiles, and pasting properties in all HA/RF treatments. In the triangle test, it was found that at least 6% of the population could perceive a difference between HA and HA/RF50. In conclusion, this study proposes the further development of the HA/RF drying process at low-temperature profiles and shows the great potential of RF technology for commercial drying in rice industry.
Highlights
Paddy rice cultivation plays an important role in the Thai economy
After the first 30 min of drying, the moisture ratio of paddy dried by hot air (HA), heating temperature of 38 ◦C (HA/RF38), heating temperature of 42 ◦C (HA/RF42), heating temperature of 46 ◦C (HA/RF46), and heating temperature of 50 ◦C (HA/RF50) were 0.9221, 0.9228, 0.8945, 0.8807, and 0.8745, respectively
The drying characteristics and moisture diffusivity showed that the higher the radio frequency (RF) heating temperature, the shorter the observed drying time
Summary
Paddy rice cultivation plays an important role in the Thai economy. About 30 million tons of paddy rice are harvested annually. Radio frequency (RF) heating is a new type of processing technology that uses electromagnetic waves in the frequency range of 1–300 MHz [1]. It has recently been used for paddy drying [2], accelerated aging [3,4,5], paddy seed treatment [2], Aspergillus flavus control [6], and insect control in milled rice [7,8,9,10]. The use of hot air (HA) in combination with RF heating to dry paddy has been investigated to develop a commercial dryer for the rice processing industry with a lower carbon footprint in the future
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