A spherical granular solid material with a diameter of 3.5 mm is to be drying in a packed bed from the initial moisture content 1.5 kg H2O/kg dry solid and the equilibrium moisture is 0.025 kg H2O/kg dry solid. The density of the dry solid is 1550 kg/m'. The length of bed is 100 mm with 30 cm diameter. The bulk density of the dry solid in the bed is p= 734 kg/m³. The inlet air has a humidity 0.05 kg H2O/ kg dry air and a temperature 119 °C. The gas superficial velocity is 0.9 m/s and the gas passes through the bed. The total critical moisture content is 0.45. Calculate the total time to dry the solids to 0.1 kg H20/kg dry solid, viscosity of air at this operation temp.= 2.23 * 10* kg/m².s %3D

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A spherical granular solid material with a diameter of 3.5 mm is to be drying in a packed bed from the initial moisture content 1.5 kg H2O/kg dry solid and the equilibrium moisture is 0.025 kg H2O/kg dry solid. The density of the dry solid is 1550 kg/m. The length of bed is 100 mm with 30 cm diameter. The bulk density of the dry solid in the bed is p= 734 kg/m³. The inlet air has a humidity 0.05 kg H2O/ kg dry air and a temperature 119 °C. The gas superficial velocity is 0.9 m/s and the gas passes through the bed. The total critical moisture content is 0.45. Calculate the total time to dry the solids to 0.1 kg H20/kg dry solid, viscosity of air at this operation temp.= 2.23 * 10* kg/m.s