Your search keyword '"Dejan, Djuric"' showing total 2 results

1. Heat Transfer Evaluation During Twin-Screw Wet Granulation in View of Detailed Process Understanding

Author

Ingmar Nopens, Thomas De Beer, Daan Van Hauwermeiren, F. Stauffer, Dejan Djuric, Adrian Funke, and Alexander Ryckaert

Subjects

Hot Temperature, Materials science, Chemistry, Pharmaceutical, Mechanical Phenomena, Energy balance, Pharmaceutical Science, 02 engineering and technology, Aquatic Science, 030226 pharmacology & pharmacy, 03 medical and health sciences, Granulation, 0302 clinical medicine, Drug Discovery, Particle Size, Composite material, Ecology, Evolution, Behavior and Systematics, Mechanical energy, Ecology, business.industry, Granule (cell biology), General Medicine, 021001 nanoscience & nanotechnology, Heat transfer, Wetting, Powders, 0210 nano-technology, business, Agronomy and Crop Science, Thermal energy

Abstract

During the last decade, the pharmaceutical industry has shown a growing interest in continuous twin-screw granulation (TSG). Despite flourishing literature on TSG, limited studies focused on fundamental process understanding on its mechanisms. In current study, granule quality attributes along the length of the TSG barrel were evaluated together with heat transfer in order to achieve a more fundamental understanding of the granulation process. An experimental setup was developed allowing the collection of granules at the different TSG compartments. In addition to the determination of typical granule attributes, mechanical energy, barrel and granule temperature (measured using an in-line implemented infra-red camera) were measured to evaluate heat transfer occurring at the different compartments and to relate them to granulation mechanisms. Collected data identified wetting enthalpy and friction forces as the main sources of heat along the granulator length. Wetting occurred in the wetting zone and generated temperature increase depending on liquid-to-solid ratio and powder wettability. In the kneading zones, granule temperature increase was proportional to mechanical energy. While it is usually admitted that granule consolidation and reshaping are the consequence of the high shear experienced by the granules, it was highlighted that most of the mechanical energy is converted into thermal energy with no correlation between mechanical energy and granule size distribution. Combined mass and energy balance of the granulation process are therefore necessary to capture the interaction between granule properties and physico-chemical and mechanical phenomena occurring in each compartment.

Published

2019

2. Experimental Analysis of Tablet Properties for Discrete Element Modeling of an Active Coating Process

Author

Johannes Khinast, Georg Scharrer, Adrian Funke, Klaus Knop, Peter Kleinebudde, Gregor Toschkoff, Sarah Just, and Dejan Djuric

Subjects

Dosage Forms, Ecology, Chemistry, Pharmaceutical, Process analytical technology, Numerical analysis, Pharmaceutical Science, Modulus, General Medicine, Aquatic Science, engineering.material, Angle of repose, Discrete element method, Gastrointestinal Tract, Coating, Materials Testing, Drug Discovery, Coefficient of restitution, engineering, Composite material, Material properties, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics, Research Article, Tablets

Abstract

Coating of solid dosage forms is an important unit operation in the pharmaceutical industry. In recent years, numerical simulations of drug manufacturing processes have been gaining interest as process analytical technology tools. The discrete element method (DEM) in particular is suitable to model tablet-coating processes. For the development of accurate simulations, information on the material properties of the tablets is required. In this study, the mechanical parameters Young's modulus, coefficient of restitution (CoR), and coefficients of friction (CoF) of gastrointestinal therapeutic systems (GITS) and of active-coated GITS were measured experimentally. The dynamic angle of repose of these tablets in a drum coater was investigated to revise the CoF. The resulting values were used as input data in DEM simulations to compare simulation and experiment. A mean value of Young's modulus of 31.9 MPa was determined by the uniaxial compression test. The CoR was found to be 0.78. For both tablet-steel and tablet-tablet friction, active-coated GITS showed a higher CoF compared with GITS. According to the values of the dynamic angle of repose, the CoF was adjusted to obtain consistent tablet motion in the simulation and in the experiment. On the basis of this experimental characterization, mechanical parameters are integrated into DEM simulation programs to perform numerical analysis of coating processes.

Published

2013