Abstract
Dielectric heating is one of the most interesting techniques for pest disinfestation. However, most of the literature works give information about the ability of microwave treatments at different power-time conditions to kill insects; less is given about the analysis of matrices structural properties and heat transport. Accordingly, the aim of this work is to investigate the effect of microwave treatments, applied for pest disinfestation, on heat transport behavior and physical/structural properties, such as water uptake capability, mineral losses, texture change, and germination capability, of most consumed cereals in human diet, such as weak wheat, durum wheat, and corn. Two different radiative treatments were performed: one in time-temperature conditions capable of inactivating the weed fauna, and the other at high temperatures of ~150 °C, simulating uncontrolled treatments. Heat transport properties were measured and showed to keep unvaried during both effective and uncontrolled microwave treatments. Instead, grain physical properties were worsened when exposed to high temperatures (reduction of germination ability and texture degradation). The achieved results, on the one hand, provide new structural and heat transport data of cereals after microwave treatments, actually not present in the literature, and on the other, they confirm the importance of correctly performing microwave treatments for an effective disinfestation without affecting matrices physical properties and nutritional features.
Highlights
Cereal grains, such as wheat, rice, and maize, are the most popular food crops in the world, and they play such an integral part in global agriculture and diet, bringing high energy content, with valuable protein, fat, and minerals
The temperatures reached by pests, which have a larger content of water, will be higher than the temperatures of matrices, allowing the treatment to kill them
Two microwave protocols were developed and applied: an effective microwave treatment (EM), ensuring a temperature in cereal mass of ~60–75 ◦ C for at least 20 s and a more drastic, named uncontrolled, microwave treatment (UCM), performed by prolonging the irradiation time up to three times that used for effective treatment
Summary
Cereal grains, such as wheat, rice, and maize, are the most popular food crops in the world, and they play such an integral part in global agriculture and diet, bringing high energy content, with valuable protein, fat, and minerals. The main nutritional role of cereals is due to the high starch content which is the reserve polysaccharide, a slow release source of energy (that can be gradually used over time). There is a growing need to improve the preservation of large amounts of cereals supplies for human feeding, avoiding quality collapses in the stages of production of raw materials, and, and especially, in the subsequent steps of handling, processing, and storage of food [2].
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