Litcius/Paper detail

Estimation of the dominant size enlargement mechanism in spray fluidized bed processes

Christian Rieck, Andreas Bück, Evangelos Tsotsas

2020AIChE Journal29 citationsDOI

Abstract

Abstract This work deals with estimating the dominant size enlargement mechanism in spray fluidized beds. A new process model is presented, which consists of population balances and a heat‐ and mass‐transfer model. New methods to incorporate the wet surface fraction and the Stokes criterion are proposed, which allow for the probability of wet collisions and the probability of successful wet collisions to be calculated. The product of these parameters, the probability of successful collisions, is linked to the dominant size enlargement mechanism. Simulation studies were performed to investigate the influence of inlet gas temperature, viscosity, droplet size, and contact angle on the probability of successful collisions. Further simulation results based on experiments available in literature suggest that exceeding a probability of successful collisions of 0.001 is sufficient for agglomeration to become dominant. Otherwise, layering will be the dominant size enlargement mechanism. Finally, regime maps of layering and agglomeration are constructed.

Topics & Concepts

LayeringEconomies of agglomerationMechanicsWork (physics)Fluidized bedHeat transferSticking probabilityPopulationMass transferStatistical physicsMaterials scienceThermodynamicsChemistryPhysicsEngineeringAdsorptionBiologyChemical engineeringSociologyOrganic chemistryDesorptionDemographyBotanyGranular flow and fluidized bedsCoagulation and Flocculation StudiesMicroencapsulation and Drying Processes
Estimation of the dominant size enlargement mechanism in spray fluidized bed processes | Litcius