(624o) The Development of a Suitable Screw Configuration for the Use in a Continuous, Co-Rotating Twin Screw Dry Granulation Process | AIChE

(624o) The Development of a Suitable Screw Configuration for the Use in a Continuous, Co-Rotating Twin Screw Dry Granulation Process


Pafiakis, S. - Presenter, Bristol-Myers Squibb
Keluskar, R. - Presenter, Bristol-Myers Squibb
Martin, K. - Presenter, Bristol-Myers Squibb
Levins, C. - Presenter, Bristol-Myers Squibb
Trinh, J. - Presenter, Bristol-Myers Squibb
Jones, J. - Presenter, Bristol-Myers Squibb
Stamato, H. - Presenter, Bristol-Myers Squibb
Ioannidis, N. - Presenter, Polymer Processing Institute
Peng, C. - Presenter, Polymer Processing Institute
Gogos, C. G. - Presenter, Polymer Processing Institute

The Development of a Suitable Screw Configuration for the use in a Continuous, Co-Rotating Twin Screw Dry Granulation Process.

Granulation processes are unit operations used in the development, manufacture, and characterization of oral solid dosage forms in industry and academia. The goal with every granulation is to transform fine, poor flowing powders into larger, free flowing agglomerates with the aid of a binder. Granulating technologies are generally described in two categories: wet and dry. Wet methods apply solution on top of an agitated powder bed. Dry methods compact powders into agglomerates; for example feeding powders through two counter rotating rolls under pressure such that the powders press together to form a thin wafer that is milled into the granulation.

Recently, the industry and universities interested in pharmaceutical processing shifted focus towards continuous granulating technology and the flexibility this technology offers. Many institutions are taking advantage of equipment readily available within their network and for this reason co-rotating twin screw extruders are currently being investigated more intensively. While often considered for making amorphous composites, because of their versatility, they can be efficient continuous granulators.

The preference when granulating with a co-rotating twin screw extruder is to employ a wet granulation method when possible. In this technique, powder is fed into the extruder and conveyed towards a mixing block via two co-rotating screws while being sprayed with a binder solution. The binder solution facilitates granulation upon compaction in the kneading zone. The granules are subsequently dried either down the barrel of the extruder, or externally in a fluidized bed. The granule attributes are strongly dependant on the binder addition rate, screw speed, and mixing block design.

In the case for dry twin screw granulation, a binder solution is not used.  Instead, the material is softened using the barrel heating mechanism of the extruder and the energy created by mixing. Agglomerate creation is facilitated by compaction of the soften binder. The granule attributes are strongly dependant on barrel heating/cooling temperature, screw speed, chilling feed rate, and the screw design.

Experiments have shown that the density of the granulation is proportional to the energy applied to the granule. The applied energy can be sufficient to induce degradation in the active pharmaceutical ingredient (API).  Furthermore, for highly cohesive, low bulk density, pre-blends, fast screw speeds are required to convey the powder to the granulating zone while maintaining the same feed rate from batch to batch. The faster screw speeds result in additional energy input with the potential for excessive temperature generation attributed to plastic and frictional energy dissipation (PED and FED). The design of the mixing elements, along with cooling at the mixing zone has been shown to reduce the PED and FED.  Results for granulations made with highly cohesive, low bulk density, pre-blends are presented.