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Departments >> Faculty of Engineering >> Department of Chemical and Biological Engineering >>
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Chair of Particle Technology (Prof. Dr. Peukert)
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Bioprozessautomation [BPA VO] -
- Lecturer:
- Andreas Bück
- Details:
- Vorlesung, 2 cred.h, nur Fachstudium, Die Vorlesung wird digital angeboten
- Dates:
- Mon, 12:15 - 13:45, room tbd
- Fields of study:
- WPF LSE-BA 3
- Prerequisites / Organisational information:
- Die Studenten sollen grundlegende Kenntnisse der Automatisierungstechnik in einfachen Beispielen anwenden können. Dazu gehören insbesondere
das Erkennen von potentiellen Problemen im Informationsmanagement eines Automatisierungssystems,
die Kenntnis, wie Sensoren in Schaltplänen gem. DIN angegeben werden,
die Abschätzung des Verhaltens von Regelstrecken mittels etablierter Verfahren (insbesondere Prüffunktionen),
die Anwendung der boolschen Logik,
die Anwendung von Codes,
die Entwicklung von Codezeilen eines Automatisierungsprogramms gem. vorgegebener Angaben.
- Contents:
- Das Fach Bioprozessautomation gibt einen Überblick über die Grundlagen der Automatisierung mit dem Schwerpunkt auf biotechnologische Prozesse. Diese Spezialisierung zielt auf die Herausforderungen biotechnologischer Matrices ab, in denen sich entscheidende Prozessgrößen, z.B. Konzentrationen, häufig nicht oder nicht mit klassischen Methoden bestimmen lassen.
Neben einer allgemeinen Einführung zu den Bereichen Steuern, Regeln und Leiten stellt die Verarbeitung von Informationen, z.B. Übermittlung und mögliche Störungen, einen wesentlichen Teil des Faches dar. Als Teile der Automatisierungstechnik werden hier auch Sensoren und Aktoren und deren Bedeutung für die Automatisierung behandelt. Schließlich werden in Vorlesung und Übung auch Grundzüge der Programmierung von Automatisierungssystemen behandelt.
Im Praktikum werden die theoretisch erarbeiteten Kenntnisse, insbesondere zur Programmierung anhand praktischer Aufgaben vertieft.
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CRC 1411 Monthly Seminars of the Integrated Research Traning Group -
- Lecturers:
- Robin N. Klupp Taylor, Monica Distaso
- Details:
- Vorlesung, The seminars take place in hybrid format: presence and digital
- Dates:
- single appointment on 1.10.2020, single appointment on 5.11.2020, single appointment on 3.12.2020, single appointment on 14.1.2021, single appointment on 4.2.2021, single appointment on 4.3.2021, single appointment on 1.4.2021, 10:15 - 12:30, KS I
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Industrielles Produktdesign [IP] -
- Lecturers:
- Jens Uhlemann, Julian Esper
- Details:
- Vorlesung mit Übung, 3 cred.h, ECTS: 5, nur Fachstudium, Die Vorlesung wird digital via Zoom angeboten
- Dates:
- single appointment on 4.11.2020, single appointment on 11.11.2020, single appointment on 18.11.2020, single appointment on 25.11.2020, single appointment on 2.12.2020, single appointment on 9.12.2020, single appointment on 13.1.2021, single appointment on 20.1.2021, single appointment on 27.1.2021, single appointment on 3.2.2021, 18:15 - 19:45, room tbd
Ca. 60 Min. Vorlesung + 30 Min. Übung pro Veranstaltung
- Fields of study:
- WPF CBI-MA ab 1
WPF LSE-MA ab 1
WPF CEN-MA 1-3
WPF NT-MA 3
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Nanotechnology of Disperse Systems [Nano] -
- Lecturers:
- Robin N. Klupp Taylor, Monica Distaso
- Details:
- Vorlesung, 2 cred.h, ECTS: 3, Online course with prerecorded and live components
- Dates:
- Thu, 8:15 - 9:45, room tbd
- Fields of study:
- PF NT-MA 3
WPF CBI-MA ab 1
WF LSE-MA ab 1
WPF ET-MA-VTE ab 1
WPF CEN-MA ab 1
- Contents:
- This course will begin with a revision of basic topics in the theory of nucleation, growth and electrostatic stabilization of particulate materials (covered by Grenzflächen in der Verfahrenstechnik - CBI-DG-G8/CBI-BAG-B8 or Basics in Nanomaterials and Nanotechnology - MAP-O 1). Following this the challenges and solutions to the problem of metal, oxide and semiconductor particle synthesis will be discussed. The use of polymeric materials is very important in the industrial application of particle technologies and following an introduction to these materials their stabilizing value will be demonstrated.
The second half of the course will concern the characterisation, properties and application of disperse systems. In addition to understanding the measurement of particle and agglomerate size and shape, the factors affecting the electronic, magnetic, optical and catalytic properties will be covered. Particles are often applied as part of a hierarchical system e.g. in a device, functional coating, drug delivery system. The use of self-assembly and printing/patterning techniques to achieve these goals will be presented with reference to work carried out within the Erlangen Cluster of Excellence "Engineering of Advanced Materials – Hierarchical Structure Formation for Functional Devices”.
In place of exercises (Übungen), participants of the course will be required to prepare and give a literature presentation in which a specific area of research into disperse systems will be explored and presented. Learning objectives
On completion of the lecture course students will be able to:
Identify major applications and research fields of nanodisperse systems
Identify and explain the fundamental theories of nucleation and growth and colloidal stability
Differentiate between different approaches for the preparation of nanodisperse systems
Select metal and metal oxide precursors and oxidizing/reducing agents according to their thermodynamic properties.
Give examples of means to control nanoparticle size, shape and agglomeration state
Distinguish between different characterization tools according to their advantages and disadvantages for the analysis of nanodisperse systems
Identify the influence of particle size on key physical properties
Match physical properties of nanoparticles to current or emergent applications
Plan a presentation in which they compare and appraise recent research activities from the literature
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Produktanalyse [PCHAR] -
- Lecturers:
- Johannes Walter, Wolfgang Peukert
- Details:
- Vorlesung, 2 cred.h, ECTS: 4, nur Fachstudium
- Dates:
- Tue, Thu, 10:15 - 11:45, room tbd
The lectures/exercises will take place digitally via zoom. Sign into the Studon course for further details
- Fields of study:
- WPF CBI-MA 1-3
WPF NT-MA 3
WPF ET-MA-VTE 3
WPF CEN-MA 1-3
- Contents:
- The lecture introduces modern (optical) techniques for characterization of disperse systems in chemical engineering and materials science. The participants will learn general principles as well as where, when and on which time scale information on materials properties can be gained by the discussed methods. For disperse systems the latter can be for example particle size, particle shape, materials composition, electronic properties and surface chemistry as well as surface charge. The participants will learn in the lecture how to judge the results of an individual technique, learn about its boundaries and where a combination of several techniques is more promising. As many of the optical techniques rely on good knowledge in optics and their fundaments, the necessary skills will be briefly introduced.
Introduction to Materials Properties and Classification
Sampling, Error Sources and their Analysis- Definition and Determination of Particle Distribution, Size and Shape
Principles Optics and Diffraction I
Principles Optics and Diffraction II
Diffraction, Rayleigh-, Mie scattering
Static and Dynamic Light scattering
X-Ray Scattering and Applications
Zetapotential and its measurement with optical methods
Analytical Ultra-Centrifugation with Multi-Wavelength Optics
Nonlinear Optics at Interfaces and its Application
Color and its Measurement: UV-Vis and Fluorescence Spectroscopy
Infrared and Raman Spectroscopy including Surface-Enhanced Techniques
Scanning Mobility Particle Sizer (SMPS)
Scanning Probe Microscopy and Electron Microscopy
Preliminary discussion on tuesday the 23.10.2017 at 16:15 in the LSTM seminar room.
- Recommended literature:
- Principles of physics extended (9. ed., internat. student version); Authors: David Halliday, Robert Resnik, Jearl Walker; Wiley 2011
Springer Handbook of Materials Measurement Methods; Authors: Horst Czichos, T. Saito, Smith Leslie; Springer 2006 (electronic access within FAU)
Nonlinear Optics; Author: Robert W. Boyd; Academic Press 2008
- Keywords:
- Produktanalyse
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Reinraumtechnik [V RRT] -
- Lecturers:
- Wolfgang Peukert, Eberhard Schlücker, Christian Lübbert
- Details:
- Vorlesung, 2 cred.h, graded certificate, ECTS: 5
- Dates:
- Mon, 16:15 - 17:45, 0.111
Die Veranstaltung findet dauerhaft im Seminarraum 0.111 des LEB statt.
- Fields of study:
- WF LSE-MA ab 1
WPF CBI-MA 1-3
WPF CEN-MA 1-3
- Prerequisites / Organisational information:
- Keine
- Contents:
- Geschichtliche Entwicklung der Reinraumtechnik
Reinraumklassen
Reinraumfilter
Struktur von Reinräumen
Klimaanlagen
Kontamination
Reinraumkleidung
Medienversorgung / Entsorgung
Automatisierung
Wirtschaftlichkeit
Sicherheit
Anwendungen von Reinräumen
Grundlagen der Luftströmung
Strömungsformen im Reinraum
Strömungsoptimierung im Reinraum
Maschinen im Reinraum
Reinraummaterialien
Partikelmesstechnik
Filtertechnik
- Recommended literature:
- W. Whyte, Cleanroom Technology: Fundamentals of Design, Testing and Operation, Second Edition, Wiley & Sons 2010, ISBN 0-471-86842-6
L. Gail, H.-P.Hortig, Reinraumtechnik, 2. Auflage, Springer 2004, ISBN 3-540-20542-X
L. Geil, U. Gommel, H. Weißsieker, Projektplanung Reinraumtechnik, Hüthig 2009, ISBN 978-3-7785-4004-6
Cleanroom Microbiology for the Non-Microbiologist, David Carlberg, 2nd edition, CRC Press 2004, ISBN 0-8493-1996-X
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