Energy efficiency and physical integrity of maize grains subjected to continuous and intermittent drying

Abstract: Grain drying is a common process, due to its need for the maintenance of quality, but it is the activity with the highest energy demand among the postharvest stages. Thus, this study aimed to evaluate the effect of different tempering times on the energy efficiency of drying process and maintenance of cell membrane integrity of maize grains harvested with moisture content at 0.34 ± 0.01 d.b. The grains were dried in an experimental fixed-bed dryer with control of temperature and air flow conditions. The experi… Show more

“…During the drying process, for each 1 kg of water evaporated from the grains, an average of 8,099.50 kJ of specific energy was required (Table 1). Specific energy consumption can be defined as the amount of energy required to evaporate a unit mass of water present in the product during drying (Lima et al, 2016;Mabasso et al, 2021).…”

Performance of industrial drying and soybean grains quality

“…During the drying process, for each 1 kg of water evaporated from the grains, an average of 8,099.50 kJ of specific energy was required (Table 1). Specific energy consumption can be defined as the amount of energy required to evaporate a unit mass of water present in the product during drying (Lima et al, 2016;Mabasso et al, 2021).…”

Performance of industrial drying and soybean grains quality

A Novel Evaluation Method for Rice Drying Based on Water Migration and Molecular Motion Law Analysis

Exergy and Water Potential Analysis of Corn Condensation Increasing Efficiency Intermittent Drying in a Fixed Bed with Semiconductor Heat Source