Abstract
For the continuous operation of granulation, which is a standard unit operation in powder processing to modify the particle size, the use of twin-screw machines was established as standard method for wet and melt granulation over the last decade. A main characteristic for this technology is the pronounced mechanical energy input and the coupling of this parameter to the throughput for high throughputs. This is challenging for melt granulation with respect to temperature control and the handling of temperature sensitive materials.In this respect, the use of a planetary roller granulator is a promising alternative due to the distinctive process concept. Here, planetary spindles within a roller cylinder are circulating around a motor-driven central spindle. These three main parts are interlocking due to a 45°toothing, which results in an enhanced generated surface of the processed material. In addition with the heating concept, which includes the roller cylinder and central spindle, this leads to an enhanced ratio of heated surface to process volume.For planetary roller melt granulation (PRMG), the feed rate and rotation speed as direct process parameters are suitable to adjust the mechanical and thermal energy input, while the ratio of these correlates to the product temperature. Therefore, a predictive determination of an operating point in this context is possible by the derived corresponding model. Moreover, the variation of the direct process parameters also impacts the fraction of net granulated particles during PRMG. This is an indicator for a shift in the overall process regime with respect to the fundamental process rates.
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