Comparison of 1D and 2D models predicting a packed bed drying

• Published in: International journal for simulation and multidisciplinary design optimization Vol. 5
• Main Authors: Messai, Souad, El Ganaoui, Mohamed, Sghaier, Jalila, Chrusciel, Laurent, Slimane, Gabsi
• Format: Journal Article
• Language: English
• Published: EDP sciences/NPU (China) 10.02.2014
• Subjects: Engineering Sciences
• ISSN: 1779-6288; 1779-6288
• DOI: 10.1051/smdo/2013018

A numerical study for the modelling of porous particles packed bed drying in one and two dimensions (1D and 2D) is presented in this work. This model is based on the averaging volume approach using two scale changes. Taking into account the non validity of the thermal equilibrium between the gas phase and the porous particle, a two temperatures model is then developed. The numerical resolution of macroscopic equations describing heat and mass transfer during the drying of a packed bed is carried out by the method of finite volume. Experimental data for spherical porous alumina particles reported in the literature were used for the validation of the model. A good agreement was found. The influence of particles thermophysical properties and operating variables is tested. A set of time-space evo-lution describes the progression of these variables with time, in the height and radius of the packed bed. The model results allow a better understanding of the heat and mass transfer mechanisms involved in a packed bed drying process.