New collaborative research carried out by Freeman Technology (Tewkesbury, UK) and Gericke AG (Zurich, Switzerland) demonstrates how to achieve faster, more reliable equipment selection in the powder processing industries.
Through experimental study, experts from the two companies have identified easily measurable powder properties that can be used to predict screw feeder performance for any given powder. The resulting correlations support optimised feeder selection for a new powder on the basis of testing a small quantity of powder.
Gericke self-cleaning twin screw extruder for low capacity applications, especially well-suited to materials with poor flow characteristics
“For Gericke AG, selecting the best screw feeder for a given powder is an essential aspect of our business, and something our customers rely on us to do well,” said Daniel Büchi, Process Engineer at Gericke. “This study shows that, with the FT4 Powder Rheometer®, we can measure powder properties that will streamline this task. Being able to predict feeder flow performance from quick tests that require just a small amount of sample is potentially very valuable for us and for the wider industry.”
The joint research was undertaken by powder characterisation specialists, Freeman Technology, and Gericke AG, a leading developer and manufacturer of powder processing equipment for chemical, food, pharmaceutical and mineral handling.
In the study, tests were carried out using two different Gericke screw feeders - one compact and versatile for high accuracy feeding, the other a self-cleaning twin screw extruder for low capacity applications, especially well-suited to materials with poor flow characteristics. The volumetric flow rate delivered by each feeder was found to correlate with different powder properties in each case, but always with dynamic rather than shear or bulk powder properties.
“We designed the FT4 Powder Rheometer to measure dynamic, shear and bulk powder properties,” said Tim Freeman, Managing Director of Freeman Technology. “This multi-faceted testing approach produces a database of powder properties that allows the detection of parameters that are most relevant to any given process. We often find that it is dynamic properties that correlate most closely with in-process behaviour, as in this study. For both screw feeders we identified simple, robust correlations between flow rate and just one or two dynamic powder parameters.”
To find out more about the approach adopted, which is equally applicable to other types of powder processing equipment,
download a PDF copy of the study here.
Freeman Technology and Powder Rheometer are registered trademarks of Freeman Technology Ltd.
About Freeman Technology
Freeman Technology specialises in systems for measuring the flow properties of powders and has over a decade of experience in powder flow and powder characterisation. Expert teams provide detailed know-how alongside the company’s universal powder tester, the FT4 Powder Rheometer®.
The FT4 Powder Rheometer uses patented dynamic methodology, a fully automated shear cell and several bulk property tests to quantify powder properties in terms of flow and processability. Systems are installed around the world across many different industries. They deliver data that maximise process and product understanding, accelerating R&D and formulation towards successful commercialisation, and supporting the long term optimisation of powder processes.
Freeman Technology’s headquarters are in Gloucestershire, UK, with operations in the USA and China, and distribution partners in Brazil, France, India, Ireland, Japan, Scandinavia and South-East Asia. In 2007 the company received the Queen’s Award for Enterprise in Innovation and in 2012 the Queen’s Award for Enterprise in International Trade