Schwerpunktfach Advanced Processes (AP focal)15.0 ECTS
(englische Bezeichnung: Focal subject Advanced Processes)
(Prüfungsordnungsmodul: Schwerpunkt Advanced Processes)

Lehrveranstaltungen:

• In the third MAP semester (WS),the lecture "Catalysis" is obligatory.

  In addition, one of the following two lectures with the respective exercises has to be chosen:
  Adsorption: Fundamentals and Application
  or
  Drying Technology

  • Process Technologies (SS 2022)
    (Vorlesung, 2 SWS, Martin Hartmann et al., Mo, 10:15 - 11:45, 0.031-113)
  • Process Technologies Exercises (SS 2022)
    (Übung, 1 SWS, Martin Hartmann et al., Mo, 08:15 - 09:45, 0.031-113)
  • Catalysis (WS 2022/2023)
    (Vorlesung, 2 SWS, Tanja Franken, Mi, 14:15 - 15:45, 0.68; The lecture Catalysis will take place in the winter semester 2021/22 in compliance with the 3 G rule in attendance. However, depending on Corona developments, it may be necessary to return to digital teaching at any time. In order to participate in the lectures, registration for the StudOn course "MAP Catalysis WS21-22" is mandatory. To join, please use the following link: https://www.studon.fau.de/crs4090581_join.html)
  • Adsorption: Fundamentals and Applications (WS 2022/2023 - optional)
    (Vorlesung, 2 SWS, Matthias Thommes, Mo, 14:15 - 15:45, H15)
  • Trocknungstechnik/Drying Technology (WS 2022/2023 - optional)
    (Vorlesung, 2 SWS, Andreas Bück, Di, 08:15 - 09:45, KS II; Seminar Raum LFG 0.332 - Cauerstraße 4, 91058 Erlangen)
  • Sustainable Technologies (SS 2022)
    (Vorlesung, 1 SWS, Tanja Franken, Mi, 12:15 - 13:45, 0.151-115; details available on StudOn, please register: https://www.studon.fau.de/crs3784892.html)
  • Advanced Semiconductor Technologies - Processing (including Lab Work Organic Electronics Processing) (SS 2022)
    (Vorlesung mit Übung, 2 SWS, Hans-Joachim Egelhaaf et al., Mi, 10:15 - 11:45, 1.225; ab 4.5.2022; Raum 1.225, LS für Biomaterialien, Cauerstr. 6, 91058 Erlangen)

Empfohlene Voraussetzungen:

basics in physical chemistry

Es wird empfohlen, folgende Module zu absolvieren, bevor dieses Modul belegt wird:

Basics in Advanced Processes 1+2: Unit Operations and Reactor Design, Chemical Analysis and Structure Determination (WS 2021/2022)

Inhalt:

Sustainable Technologies:
1. Definition of sustainability and measures
2. Current and future Energy mix
3. Exhaust Gas Catalysis
4. Sustainable Feedstocks
5. Biorefinery
6. CO2 as C1 Source
7. Chemical Energy Storage
8. H2 Production & Fuel Cells
9. Batteries
10. Solar Cells

Process Technologies:
The course “Process Technologies” gives an overview on important processes in the chemical process industries. The processes are treated in a holistic approach and the interaction of individual process steps and their feedback to the overall process are discussed in more detail. In particular, the relationship between the physical/chemical basics of the processes, process development and process design will be discussed. The presented processes are selected based on their importance in the fields of raw materials, intermediates and consumer products of the chemical process industries. In the sense of process engineering, apart from the reaction steps, the separation operations are also part of the considerations. The evaluation of the methods with regard to their cost-effectiveness and sustainability complete the description of the processes. In detail, the following aspects will be treated:

• Raw materials (crude oil, fuels, natural gas, technical gases)

• Organic base chemicals (syngas, alkanes, alkenes, aromatics)

• Organic intermediates (C1-C4 alcohols, cyclic alcohols, ether, epoxides, organic acids)

• Renewable raw materials

• Organic end products (surfactants, pigments, polymers)

• Inorganic base chemicals and intermediates (sulfuric acid, ammonia, sodium hydroxide)

• Inorganic end products (fertilizers, ceramics, glass)

• Process development (technologies, economic evaluation)

Thin films:

• overview on passive materials in organic electronics (substrates, dielectrics, packaging and encapsulation materials)
  

• dielectric properties, barrier properties, optical properties
  

• major thin film fabrication processes (gas phase and solution based)
  

• printing (gravure, ink-jet, doctor blading) techniques and conditions
  

• composition of inks, thin film homogeneity and thickness control
  

• deposition of patterned features
  

• molecular self-assembly (molecular scale fabrication, applications).
  

The Catalysis lecture covers

• Homogeneous catalysis

• Fluid/fluid biphasic catalysis

• Hatta number and enhancement

• Advanced solvents for catalyst immobilization

• Heterogeneous catalysis

• Deriving reaction rate approaches for surface catalyzed reactions

• Reactors to determine kinetics of reaction and mass transfer

• Mass transfer coefficient correlations

• Mass transfer influences on selectivity

• Mass transfer in fluidized beds

• Models to describe residence time distributions

• Catalyst characterization

• Chemical energy storage

Adsorption: Fundamentals and Applications
1. Introduction and terminology
2. Gas adsorptions basics and adsorbent materials
3. Physisorption mechanisms
4. Surface area determination
5. Porosity and pore structure analysis of nanoporous materials
5.1 Micropore analysis
5.2 Mesopore analysis
5.3 Macropore analysis : adsorption and liquid intrusion methods
5.4. Characterization of hierarchically structured porous materials
6. High pressure adsorption
7. Surface chemistry effects on adsorption
8. Adsorption and characterization in the liquid phase
8. Adsorption of mixtures
9. Adsorption applications in gas storage and separation

Lernziele und Kompetenzen:

Students who successfully participate in this module can

define different types of chemical reaction and reactor
differentiate between steady-state and transient reactor operation
evaluate the differences between idea and real reactors
assess aspects of safety of chemical reactors
define challenges and solutions for multiphase reactors
describe the importance of thin film technologies to modern (opto)electronic devices
define principal gas and solution-based thin film fabrication technologies, especially printing techniques
evaluate the composition of printing inks and characteristics and quality of printed layers
explain how thin films can be patterned
understand the role of emerging thin film technologies such as molecular self-assembly

Students who successfully participate in this module can
explain the material, technological and developmental aspects of chemical processes
understand the fundamentals of both homogeneous and heterogeneous catalysis
analyze and evaluate the general mechanisms in catalysis
describe and critically asses the interplay between mass transport and chemical reaction
apply immobilization techniques for homogeneous catalysts
transfer their knowledge about chemical reactors regarding influences on catalytic processes

Organisatorisches:

Please register on StudOn for the respective courses

Verwendbarkeit des Moduls / Einpassung in den Musterstudienplan:

1. Advanced Materials and Processes (Master of Science)
   (Po-Vers. 2019w | TechFak | Advanced Materials and Processes (Master of Science) | Gesamtkonto | Schwerpunktfächer | Schwerpunkt Advanced Processes)

Studien-/Prüfungsleistungen:

Advanced Processes 2a: Catalysis and Adsorption und Advanced Processes (Prüfungsnummer: 1802)

(englischer Titel: Advanced Processes 2: Process Technology and Catalysis)

Prüfungsleistung, schriftlich oder mündlich, benotet, 7.5 ECTS

Anteil an der Berechnung der Modulnote: 50.0 %

weitere Erläuterungen:
either oral exam 45 minutes or written exam 120 minutes

Prüfungssprache: Englisch

Erstablegung: WS 2022/2023, 1. Wdh.: SS 2023

1. Prüfer:

Tanja Franken

Advanced Processes 2b: Catalysis and Drying Technology (Prüfungsnummer: 1803)

(englischer Titel: Advanced Processes 1: Separation Processes, Reactors and Thin Films)

Prüfungsleistung, schriftlich oder mündlich, benotet, 7.5 ECTS

Anteil an der Berechnung der Modulnote: 50.0 %

weitere Erläuterungen:
either oral exam 45 minutes or written exam 120 minutes

Prüfungssprache: Englisch

Erstablegung: WS 2022/2023, 1. Wdh.: SS 2023

1. Prüfer:

Tanja Franken

Advanced Processes 1: Process Technologies, Sustainable Technologies, and Thin Films (Prüfungsnummer: 1804)

Prüfungsleistung, schriftlich oder mündlich, Dauer (in Minuten): K 120 min, m 45 min, benotet, 7.5 ECTS

Anteil an der Berechnung der Modulnote: 50.0 %

weitere Erläuterungen:
either oral exam 45 minutes or written exam 120 minutes

Prüfungssprache: Englisch

Erstablegung: SS 2022, 1. Wdh.: WS 2022/2023

1. Prüfer:

Tanja Franken

Termin: 04.08.2022
Termin: 04.08.2022