Project Details
Dynamics of spray granulation in continuously operated horizontal fluidised beds
Applicants
Professor Dr.-Ing. Stefan Heinrich; Professor Dr.-Ing. Achim Kienle; Professor Dr.-Ing. Evangelos Tsotsas
Subject Area
Mechanical Process Engineering
Chemical and Thermal Process Engineering
Chemical and Thermal Process Engineering
Term
from 2013 to 2020
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 238434279
This research project aims at a detailed investigation of the complex process dynamics arising in continuously operated multi-stage fluidized bed granulation. This process has prototypic character for the dynamic simulation of coupled particle processes, due to the presence of different process chambers, the presence of zones with different functionality in each process chamber, the high flexibility in designing the internal coupling between different chambers and zones with different classification characteristics, the coupling between particle and fluid phase due to drying, varying positions and classification characteristics of external recycles, and multiple internal coordinates to characterize product properties. Consequently, the project follows a multi scale approach, which combines experimental work with different modeling methods and a nonlinear analysis of process dynamics.Experiments for the multi-chamber fluidized bed granulator will be done by the Heinrich group. Further, this group applies discrete particle modeling (DPM) to describe the dynamics of particle transport between different chambers and different functional zones within the chambers, with special emphasis on classification characteristics. Another focus is on the modeling of the periphery for processes with external product classification and recycle.The Tsotsas group develops population balance and heat and mass transfer models for the description of the temporal evolution of particle properties for different process configurations and different operating conditions, including parameterization of the models. Moreover, this group provides detailed characterization of particle properties (particle size distribution, X-ray micro tomography, scanning electron microscopy, mechanical stability) as well as novel particle tracking velocimetry experiments for investigation of particle transport at weirs.The Kienle group is concerned with the development of new methods for system and parameter identification and system theoretical analysis of the nonlinear dynamic behavior of continuous multi-chamber fluidized bed granulation. The analysis provides further insight into the underlying processes. In cooperation with the other groups, results will be used for an evaluation, refinement and discrimination of the developed population balance modeling approaches. Auto tuning controllers will be developed to speed up the time consuming experiments. These will be combined with suitable methods for prediction and detection of possible open loop instabilities and implemented at the plant.
DFG Programme
Priority Programmes
Co-Investigators
Professor Dr.-Ing. Andreas Bück; Professor Dr.-Ing. Stefan Palis