Introduction: overview about the separation process in biotechnology and pharmacy
Handling of multicomponent systems
Adsorption of biologic molecules
Crystallization of biologic molecules
Reactive extraction
Aqueous two-phase systems
Micellar systems: micellar extraction and micellar chromatographie
Electrophoresis
Choice of the separation process for the specific systems
Learning Outcomes:
Basic knowledge of separation processes for biotechnological and pharmaceutical processes
Identification of specific features and limitations in bio-related systems
Proof of economical value of the process
Performance accreditation:
600 - Separation Technologies for Life Sciences<ul><li>600 - Separation Technologies for Life Sciences: Klausur schriftlich</li></ul><br>601 - Separation Technologies for Life Sciences<ul><li>600 - Separation Technologies for Life Sciences: Klausur schriftlich</li><li>801 - Separation Technologies for Life Sciences - RE: Presentation</li></ul><br>m545 - Separation Technologies for Life Sciences<ul><li>p513 - Separation Technologies for Life Sciences: Klausur schriftlich</li><li>vl184 - Separation Technologies for Life Sciences - RE: Presentation</li></ul>
Ahmed, Taha (2024). Development of an iterative multi-agent coordination framework for congestion prevention in low voltage grids.
Busch, Marcel (2024). Entwicklung eines Netzmodells zur szenarienbasierten Untersuchung von Engpässen in heutigen und zukünftigen städtischen Verteilnetzen.
Lindner, Joost (2024). Entwicklung einer probabilistischen Lastprognose für die Niederspannungsebene elektrischer Verteilnetze.
Ming, Zhao (2024). Conceptual Design for a grid demonstrator for teaching purposes and development of a suitable distribution grid simulation.
Wilke, Jan Jakob (2024). Definition leistungsbasierter Netzregeln zur Engpassvermeidung in elektrischen Verteilnetzen.
completed
2023
Kock am Brink, Jonas (2023). Entwicklung einer Engpassprognose für elektrische Verteilnetze mittels probabilistischer Verfahren.