Vanessa Düphans, Vincent Kimmel, Lukas Messing, Gerhard Schaldach, Markus Thommes
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The experimental data were fitted to the model of Pawlowski, and parameters for the pressure (A<sub>1</sub>, A<sub>2</sub>) and power characteristics (B<sub>1</sub>, B<sub>2</sub>) were determined. Good agreement between experimental data and the model was observed. The simulation was significantly faster compared to common methods, and the results were consistent with the literature. Systematic investigations of a native and worn screw were performed with CFD resulting in a transport capacity increase and a pressure build up decrease for all tested screw elements. An experimental and simulation setup was generated to assess the performance of co-rotating twin screw elements. The experiments provided high-quality data, and the simulations exhibited high flexibility with low computational effort.</p>","PeriodicalId":20004,"journal":{"name":"Pharmaceutical Development and Technology","volume":" ","pages":"675-683"},"PeriodicalIF":2.6000,"publicationDate":"2024-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Experimental and numerical characterization of screw elements used in twin-screw extrusion.\",\"authors\":\"Vanessa Düphans, Vincent Kimmel, Lukas Messing, Gerhard Schaldach, Markus Thommes\",\"doi\":\"10.1080/10837450.2024.2378323\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Hot melt extrusion by a co-rotating twin screw extruder is an important process in the pharmaceutical industry. Especially for quality by design aspects, a comprehensive process understanding is indispensable. The performance of conveying elements was determined as critical process parameter, and therefore an experimental and numerical framework was developed to analyze and compare variations. A test rig capable of measuring volume flow, pressure and torque with high accuracy and precision was designed and built. The 3D simulation was performed using computational fluid dynamics (CFD). A stationary model with impulse transmission and an apparent motion of the screws was applied. The experimental data were fitted to the model of Pawlowski, and parameters for the pressure (A<sub>1</sub>, A<sub>2</sub>) and power characteristics (B<sub>1</sub>, B<sub>2</sub>) were determined. Good agreement between experimental data and the model was observed. The simulation was significantly faster compared to common methods, and the results were consistent with the literature. Systematic investigations of a native and worn screw were performed with CFD resulting in a transport capacity increase and a pressure build up decrease for all tested screw elements. An experimental and simulation setup was generated to assess the performance of co-rotating twin screw elements. 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Experimental and numerical characterization of screw elements used in twin-screw extrusion.
Hot melt extrusion by a co-rotating twin screw extruder is an important process in the pharmaceutical industry. Especially for quality by design aspects, a comprehensive process understanding is indispensable. The performance of conveying elements was determined as critical process parameter, and therefore an experimental and numerical framework was developed to analyze and compare variations. A test rig capable of measuring volume flow, pressure and torque with high accuracy and precision was designed and built. The 3D simulation was performed using computational fluid dynamics (CFD). A stationary model with impulse transmission and an apparent motion of the screws was applied. The experimental data were fitted to the model of Pawlowski, and parameters for the pressure (A1, A2) and power characteristics (B1, B2) were determined. Good agreement between experimental data and the model was observed. The simulation was significantly faster compared to common methods, and the results were consistent with the literature. Systematic investigations of a native and worn screw were performed with CFD resulting in a transport capacity increase and a pressure build up decrease for all tested screw elements. An experimental and simulation setup was generated to assess the performance of co-rotating twin screw elements. The experiments provided high-quality data, and the simulations exhibited high flexibility with low computational effort.
期刊介绍:
Pharmaceutical Development & Technology publishes research on the design, development, manufacture, and evaluation of conventional and novel drug delivery systems, emphasizing practical solutions and applications to theoretical and research-based problems. The journal aims to publish significant, innovative and original research to advance the frontiers of pharmaceutical development and technology.
Through original articles, reviews (where prior discussion with the EIC is encouraged), short reports, book reviews and technical notes, Pharmaceutical Development & Technology covers aspects such as:
-Preformulation and pharmaceutical formulation studies
-Pharmaceutical materials selection and characterization
-Pharmaceutical process development, engineering, scale-up and industrialisation, and process validation
-QbD in the form a risk assessment and DoE driven approaches
-Design of dosage forms and drug delivery systems
-Emerging pharmaceutical formulation and drug delivery technologies with a focus on personalised therapies
-Drug delivery systems research and quality improvement
-Pharmaceutical regulatory affairs
This journal will not consider for publication manuscripts focusing purely on clinical evaluations, botanicals, or animal models.
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