What is Falling Rate Period Drying?
The falling rate drying period is a stage in the drying process where the rate of moisture removal from the material decreases over time as the internal moisture content of the material is reduced. During this period, the drying rate is typically controlled by the rate of moisture diffusion within the material, which is slower than the rate of heat and mass transfer at the surface of the material. In this stage, the moisture content of the material decreases more slowly than during the constant rate drying period, as the remaining moisture is located deeper within the material and must diffuse to the surface before it can be removed. The length of the falling rate period depends on the properties of the material being dried, such as its porosity, particle size, and moisture distribution.
How to Calculate Rate of Constant Drying Period based on Critical to Final Moisture Content for Falling Rate Period?
Rate of Constant Drying Period based on Critical to Final Moisture Content for Falling Rate Period calculator uses Rate of Constant Drying Period = (Dry Weight of Solid/Falling Rate Drying Time)*((Critical Moisture Content-Equilibrium Moisture Content)/Drying Surface Area)*(ln((Critical Moisture Content-Equilibrium Moisture Content)/(Final Moisture Content for Falling Rate Period-Equilibrium Moisture Content))) to calculate the Rate of Constant Drying Period, The Rate of Constant Drying Period based on Critical to Final Moisture Content for Falling Rate Period formula is defined as Rate of Constant Drying Period calculated based on its relation with the drying process in the falling rate period. Rate of Constant Drying Period is denoted by Nc symbol.
How to calculate Rate of Constant Drying Period based on Critical to Final Moisture Content for Falling Rate Period using this online calculator? To use this online calculator for Rate of Constant Drying Period based on Critical to Final Moisture Content for Falling Rate Period, enter Dry Weight of Solid (WS), Falling Rate Drying Time (tf), Critical Moisture Content (Xc), Equilibrium Moisture Content (XEq), Drying Surface Area (A) & Final Moisture Content for Falling Rate Period (Xf(Falling)) and hit the calculate button. Here is how the Rate of Constant Drying Period based on Critical to Final Moisture Content for Falling Rate Period calculation can be explained with given input values -> 2.248045 = (100/37)*((0.11-0.05)/0.1)*(ln((0.11-0.05)/(0.065-0.05))).