Mathematical drying simulation of agricultural products reached its highest point in the decades of 1960 and 1970, with prominence for MSU and Thompson's models. However, none of them used the constant enthalpy condition of drying air during the process, being limited to checking if the relative humidity of the air did not exceed 100%. Studies conducted in the State University of Maringa allowed to conclude that energy and mass balances of a drying process are included when using the same air enthalpy in such process. The absolute humidity of the air is adjusted as a function of the removed humidity of the product. With that new absolute humidity of the air and with the constant enthalpy, the new temperature of the drying air is evaluated in the exit of the layer and, with those two psychrometric properties, the relative humidity of the air. If it reaches the saturated condition, the drying process is stopped at that time and position. The results obtained by simulation were checked against experimental results of corn dried in fixed-bed layers, with high agreement among them.

• 出版日期2010-8