This website uses cookies primarily for visitor analytics. Certain pages will ask you to fill in contact details to receive additional information. On these pages you have the option of having the site log your details for future visits. Indicating you want the site to remember your details will place a cookie on your device. To view our full cookie policy, please click here. You can also view it at any time by going to our Contact Us page.

In-line particle sizer proves its PAT credentials

12 March 2013

The Parsum in-line particle sizing probe supplied Malvern Instruments is being used as a Process Analytical Technology (PAT) instrument in granulation research being conducted at Ghent University in Belgium.

Professor Thomas De Beer’s PAT group have been using the instrument to continuously monitor granulation processes and to develop effective automated strategies for process control.

The PAT group focuses on identifying robust and relevant PAT tools. The team researches how these can be applied to improve manufacturing efficiency. Granulation trials have shown that real-time particle size measurements, in combination with other analytical data, support consistent production of granules to a defined specification.

Professor De Beer said, “In our research we look at all aspects of PAT. We focus not only on assessing different technologies and instrumentation for monitoring, but on applying the resulting data to process control. Using Parsum we have tracked the evolution of particle size in real time during fluidised bed granulations. The data provide detailed information during Design of Experiment studies and enable us to develop models for real-time batch evaluation. These models help drive effective automated process control and reduce batch release times, both of which are important goals for pharmaceutical processors.”

PAT is playing a pivotal role in achieving the pharmaceutical industry’s stated aims of moving away from batch operation and off-line monitoring towards continuous, integrated processing and real-time release.

Granulation is a unit operation that is used widely in pharmaceutical processing, particularly in tablet production, but its control can be challenging.

Prof. De Beer’s research shows that by correlating particle size data – and other process variables such as binder addition rate and inlet air temperature – with granule quality defined in terms of density, it is possible to develop predictive process models. These can be used to define and control processing conditions to deliver a successful outcome. Such work is an essential precursor to the integration of granulation processes in continuous powder-to-tablet production lines.

The rugged Parsum probe measures particle size across the size range 50 to 6000 microns using the spatial particle velocimetry technique. Available in a number of different probe lengths it is designed specifically for in-process use and can be installed directly into a line or vessel for real-time monitoring.


Contact Details and Archive...

Related Articles...

Most Viewed Articles...

Print this page | E-mail this page