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Last update: Pátková Vlasta (19.04.2018)
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Last update: Zámostný Petr prof. Ing. Ph.D. (18.10.2018)
Students will be able to: Describe key principles of selected unit operations including their underlying principles Establish quantitative relationships between parameters and behavior/outputs of unit operations Solve model problems of optimization of selected manufacturing processes |
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Last update: Zámostný Petr prof. Ing. Ph.D. (15.11.2022)
R: Hickey A. J., Ganderton D: Pharmaceutical Process Engineering, Marcel Dekker (2001) or Hickey A. J., Ganderton D: Pharmaceutical Process Engineering 2ed., Marcel Dekker (2016). R: Rhodes M: Introduction To Particle Technology, John Wiley & Sons Ltd. (2008). A: Schultze D.: Powders and bulk solids, 2ed., Springer (2021). A: Muzzio F.J. et al.: Solids Mixing in Handbook of Industrial Mixing, pp. 1333-1351, John Wiley and Sons (2004) A: Parikh D.M. ed.: Handbook of Pharmaceutical Granulation Technology 4ed, Taylor & Francis Group, LLC (2021). |
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Last update: Zámostný Petr prof. Ing. Ph.D. (18.10.2018)
Supplementary course materials available via university network |
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Last update: Zámostný Petr prof. Ing. Ph.D. (18.10.2018)
lectures, preparation of project oriented on identifying current challenges and solutions related to selected unit operation |
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Last update: Zámostný Petr prof. Ing. Ph.D. (18.10.2018)
The course is specifically oriented on: 1. Characteristics and characterization of particles and particulate systems 2. Mechanics of flow of particulate solids 3. Mixing, segregation, and separation of particulate solids 4. Principles of particle fragmentation, comminution processes 5. Wet agglomeration processes 6. Compaction physics of particulate solids 7. Roll-compaction 8. Tablet compression |
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Last update: Zámostný Petr prof. Ing. Ph.D. (03.05.2022)
Working out 6 of 7 project tasks and preparing protocols. |
Coursework assessment | |
Form | Significance |
Defense of an individual project | 50 |
Oral examination | 50 |