PHA.03535.02 - Optimization of bioprocesses (Vollständige Modulbeschreibung)
| PHA.03535.02 | 5 CP |
|---|---|
| Modulbezeichnung | Optimization of bioprocesses |
| Modulcode | PHA.03535.02 |
| Semester der erstmaligen Durchführung | |
| Fachbereich/Institut | Institut für Pharmazie |
| Verwendet in Studiengängen / Semestern |
|
| Modulverantwortliche/r | |
| Weitere verantwortliche Personen |
Dr. N. Volk |
| Teilnahmevoraussetzungen | Modul D: Introduction to Bioprocess Technology (Upstream Processing) |
| Kompetenzziele | Knowledge of mathematical modeling to optimization of bioprocesses Foundations in the use of simulations languages Using tools to identification, simulation and optimization Application of models to optimization of bioprocesses Knowledge of planning and preparation of bioreactor cultivations Laboratory scale development of strategies for optimal bioprocessing technologies Experience in the use of bioprocess cultivation techniques Practical experience in the preparation and implementation of fermentations Analyze and validate of results of fermentations |
| Modulinhalte | Course E.1: Modeling and simulation Principles of bioprocess modeling and optimization Modeling concepts for biological systems and bioreactors Dynamic modeling of bioreactors Introduction in simulation language (MATLAB, Copasi, Celldesigner) Case studies to simulation Optimization of bioprocesses Case studies to optimization Course E.2: Control of bioreactor cultivations Planning of a bioreactor cultivation process Mathematical simulation of the process Preparation of the bioprocess techniques and analytics Experimental realization of the cultivation process Analyze and validate the results Identification of a model from the results Describe and analyze the process |
| Lehrveranstaltungsformen |
Praktikum (2 SWS)
Vorlesung (1 SWS) Seminar (1 SWS) Seminar (1 SWS) Kursus |
| Unterrichtsprachen | Deutsch, Englisch |
| Dauer in Semestern | 1 Semester Semester |
| Angebotsrhythmus Modul | jedes Sommersemester |
| Aufnahmekapazität Modul | unbegrenzt |
| Prüfungsebene | |
| Credit-Points | 5 CP |
| Modulabschlussnote | LV 1: %; LV 2: %; LV 3: %; LV 4: %; LV 5: %. |
| Faktor der Modulnote für die Endnote des Studiengangs | 1 |
| Modulveranstaltung | Lehrveranstaltungsform | Veranstaltungstitel | SWS | Workload Präsenz | Workload Vor- / Nachbereitung | Workload selbstgestaltete Arbeit | Workload Prüfung incl. Vorbereitung | Workload Summe |
|---|---|---|---|---|---|---|---|---|
| LV 1 | Praktikum | Control of bioreactor cultivations | 2 | 0 | ||||
| LV 2 | Vorlesung | Modeling and Simulation | 1 | 0 | ||||
| LV 3 | Seminar | Modeling and Simulation | 1 | 0 | ||||
| LV 4 | Seminar | Control of bioreactor cultivations | 1 | 0 | ||||
| LV 5 | Kursus | Selbststudium | 0 | |||||
| Workload modulbezogen | 150 | 150 | ||||||
| Workload Modul insgesamt | 150 | |||||||
| Prüfung | Prüfungsvorleistung | Prüfungsform | |
|---|---|---|---|
| LV 1 | |||
| LV 2 | |||
| LV 3 | |||
| LV 4 | |||
| LV 5 | |||
| Gesamtmodul | 1 attestation, 1 protocol, 5 exercises |
Klausur |
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| Wiederholungsprüfung | |||
| Regularien | Teilnahmevoraussetzungen | Angebotsrhythmus | Anwesenheitspflicht | Gewicht an Modulnote in % |
|---|---|---|---|---|
| LV 1 | Sommersemester | Nein | % | |
| LV 2 | Sommersemester | Nein | % | |
| LV 3 | Sommersemester | Nein | % | |
| LV 4 | Sommersemester | Nein | % | |
| LV 5 | Sommersemester | Nein | % |
