Katalyse für nachhaltige chemische Produkte und Energieträger (Catalysis for sustainable chemicals and energies)
- Typ: Vorlesung (V)
- Semester: SS 2020
-
Zeit:
22.04.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
29.04.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
06.05.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
13.05.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
20.05.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
27.05.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
03.06.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
10.06.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
17.06.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
24.06.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
01.07.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
08.07.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
15.07.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
22.07.2020
08:00 - 09:30 wöchentlich
11.21 Raum 006
11.21 Chemische Technik
-
Dozent:
Prof. Dr. Felix Studt
Dr. Erisa Saraci
Prof. Dr. Jan-Dierk Grunwaldt - SWS: 2
- LVNr.: 5440
Zusatzinformationen zu "Katalyse für nachhaltige chemische Produkte und Energieträger (Catalysis for sustainable chemicals and energies)"
Wichtige Information und Übersicht zur Vorlesung SS 2021
In diesem Jahr wird die Vorlesung digital zur Verfügung gestellt. Registrieren Sie sich dafür über ILIAS.
This year the course will be conducted in a digital form. Register via ILIAS.
Details (in Deutsch):
Die Vorlesungsunterlagen sind in Englisch.
So lange Vorlesungen nicht in gewöhnlichem Rahmen durchgeführt werden können, werden die Unterlagen spätestens Freitag in der Vorwoche v bereitgestellt und am Mittwoch 8.00 Uhr diskutiert.
Am 14.04.2021 um 8.00 h wird zum ersten Mal eine Konferenz aufgesetzt. Dazu müssen Sie sich in ILIAS registrieren (bei Fragen kontaktieren Sie: Erisa Saraci oder Jan-Dierk Grunwaldt).
Dozenten: Prof. Dr. Jan-Dierk Grunwaldt, Dr. Erisa Saraçi, Prof. Dr. Felix Studt und weitere Gäste
Vorlesung: 2 SWS
Ort: Online Kurs
Zeit: 8.00 h am MIttowch
Vorlesungsmaterialien sind nur für persönlichen Gebrauch.
Details (in English):
The lecture slides are in English.
As long as there is no front-up teaching allowed, the documents will be provided latest Friday the week before the course day and on Wednesdays at 8.00 h we discuss the topic.
On April 14, 2021, at 8.00 h there will be set up the first conference. For this purpose, please register in ILIAS (contact: Erisa Saraci and Jan-Dierk Grunwaldt).
Dozenten: Prof. Dr. Jan-Dierk Grunwaldt, Dr. Erisa Saraçi, Prof. Dr. Felix Studt and further guests
Lecture: 2 SWS
Place: Online course
Official time: 8:00 - 9:30 AM
Course material is only for personal use.
View at an older Zeitplan/Schedule SS2020:
22.04. Welcome, short presentation of course, registration (ES, JDG, FS; Download)
29.04. Introduction and overview (JDG, FS, ES; Download)
06.05. Biomass upgrading - physical and thermochemical treatment (ES; Download)
13.05. Complementary strategies: Syngas chemistry vs. platform routes starting from biomass, hydrodeoxygenation, bioliq (JDG; Download)
20.05. Theory in heterogeneous catalysis - basics (FS; Download)
27.05. Syngas to synthetic fuels and e-fuels (JDG/MS; Download)
03.06. Theory & experiment in methanol synthesis and MTO (FS, AB; Download1, Download2)
10.06. Platform chemicals I (ES; Download)
17.06. Platform chemicals II (OS; Download)
24.06. Photo- and electrochemical water splitting & fuel cells (SC; Download)
01.07. Theory in electrocatalysis (FS; Download)
08.07. Homogeneous and heterogeneous sustainable catalysis (BS)
15.07. Summary and feedback (FS, JDG, ES)
Letztes Update: 30.06.2020
Earlier courses
Course SS 2019
Dozenten: Prof. Dr. Jan-Dierk Grunwaldt, Dr. Erisa Saraçi, Prof. Dr. Felix Studt, Dr. Steffen Czioska
Vorlesung: 2 SWS
Ort: HS 006, Geb. 11.21
Zeit: Mittwochs, 8:00 - 9:30 Uhr im Sommersemester
Vorlesungsmaterialien sind nur für persönlichen Gebrauch.
Letztes Update: 24.06.2019
Zeitplan 2019:
24.04. Introduction and Overview (FS, JDG, download)
08.05. Biomass Upgrading – physical and thermochemical treatment (ES, download)
15.05. Complementary strategies: Syngas chemistry vs. platform routes (JDG)
22.05. Syngas to synthetic fuels and e-fuels (ES, download)
29.05. Platform chemicals I (ES, download)
05.06. Borregaard site visit (ES, download)
12.06. Platform chemicals II (ES, download)
19.06. Theory in heterogeneous catalysis (FS)
26.06. Theory & Experiment in methanol synthesis and MTO (FS)
03.07. Photo- and electrochemical water splitting & fuel cells (SC, download)
10.07. Theory in electrocatalysis (FS)
17.07. Summary and feedback (FS, JDG, ES)
_______________________________________________________________
Übersicht zur Vorlesung (SS 2018)
Dozenten: Prof. Dr. Jan-Dierk Grunwaldt, Dr. Erisa Saraçi, Prof. Dr. Felix Studt
Vorlesung: 2 SWS
Ort: HS 006, Geb. 11.21
Zeit: Mittwochs, 8:00 - 9:30 Uhr im Sommersemester
Vorlesungsmaterialien sind nur für persönlichen Gebrauch.
Letztes Update: 12.07.2018
Zeitplan 2018:
18.04. Introduction (JDG, ES, FS; Download)
25.04. From fossil to renewable fuels and chemicals (FS; Download)
02.05. Biomass upgrading - physical and thermochemical treatment (JDG; Download)
09.05. Complementary strategies: Syngas chemistry vs. platform routes (JDG; Download)
16.05. Syngas to synthetic fuels and E-fuels (JDG, FS; Download)
23.05. Visit to Bioliq facility (9:00 –12:00; Campus North, J. Sauer)
30.05. Platformchemicals I (ES, JDG; Download)
06.06. Platformchemicals II (ES)
13.06. Theory in heterogeneous catalysis (FS; Download)
20.06. Synthesis gas to higher alcohols: modern catalyst developments (JDG, FS; Download)
27.06. Photo-and electrochemical water splitting + Fuel cells (FS; Download)
04.07. Theory in electrocatalysis (FS; Download)
11.07. Summary / Recent applications and future concepts (JDG, ES, FS)
Übersicht zur Vorlesung (SS 2017)
Dozenten: PD Dr. Wolfgang Kleist, Prof. Dr. Felix Studt, Prof. Dr. Jan-Dierk Grunwaldt,
Vorlesung: 2 SWS
Ort: HS 006, Geb. 11.21
Zeit: Mittwochs, 8:00 - 9:30 Uhr im Sommersemester
08:00 - 09:30 every week starting April 26, 2017
Room 006, Geb. 11.21 (ITCP, Engesserstr. 20)
Course material is only for personal usage.
Last update: 03.05.2017
Schedule 2017:
26.04. Introduction and Overview (FS, JDG, WK; Download)
03.05. Biomass Upgrading – physical and thermochemical treatment (JDG)
10.05. From fossil to renewable fuels and chemicals (FS)
17.05. Complementary strategies: Syngas chemistry vs. platform routes (WK; Download)
24.05. Syngas to synthetic fuels (WK; Download)
31.05. Visit to Bioliq facility (9:00 – 12:00; Campus North, Prof. Nicolaus Dahmen)
07.06. Platform chemicals (WK; Download)
14.06. Theory in heterogeneous catalysis (FS)
21.06. Photo- and electrochemical water splitting (FS)
28.06. Fuel cells (WK)
05.07. E-fuels (FS)
12.07. Theory in electrocatalysis (FS)
19.07. Summary and feedback (FS, JDG, WK)
26.07. no lecture
Übersicht zum Kursus (SS 2016)
Dozenten: Prof. Dr. Jan-Dierk Grunwaldt, PD Dr. Wolfgang Kleist
Vorlesung: 2 SWS
Ort: HS 006, Geb. 11.21
Zeit: Mittwochs, 8:00 - 9:30 Uhr im Sommersemester
Overview on the Course (SS 2016)
08:00 - 09:30 every week starting April 20, 2016
Room 006, Geb. 11.21 (ITCP, Engesserstr. 20)
Course material is only to be used for personal usage.
Last update: 21.06.2016 (external speakers including their dates are not yet confirmed)
20.04. Welcome by Dr. Wolfgang Kleist and Prof. Dr. Jan-Dierk Grunwaldt; Introduction and Overview (Download, JDG)
27.04. Upgrading of biomass - Physical and thermochemical processes (WK) (Download)
04.05. Strategies: syngas route vs. platform molecules (JDG) (Download)
11.05. Synthesis gas to synthetic fuels (Download)
18.05. From sustainable chemistry and energy to processes and plants (Prof. J. Sauer) (Download)
25.05. Fuel cell technology (WK) (Download)
01.06. Theory in Catalysis for Sustainable Chemicals and Energies (Prof. F. Studt) (Download)
08.06. Visit of Bioliq facility (www.bioliq.de) (Prof. N. Dahmen; Campus Nord, Abfahrt: 9:00, KIT-Shuttle)
15.06. Strategies form biomass to platform molecules (Downlaod) / Biomass-derived platform chemicals (Grunwaldt) (Downlaod)
22.06. No lecture; shifted to Thursday 23.06. (10:00 am, building 11.21, seminar room 104): Energetic and substantial optimization of biomass, syngas and electricity (Dr. C. Kiener) (Download)
29.06. Microreactors for chemical energy storage (Prof. R. Dittmeyer) (Download)
06.07. The white biorefinery - chances and limitations (Prof. C. Syldatk) (Download)
13.07. Summary and discussion (Kleist, Grunwaldt)
20.07. entfällt
Overview on the Course (SS 2015)
Course material is only to be used for personal usage.
Last update: 21.07.2015
15.04. Welcome by Dr. Wolfgang Kleist and Prof. Dr. Jan-Dierk Grunwaldt; Introduction (WK, Download)
22.04. Upgrading of biomass - Physical and thermochemical processes (WK, Download)
29.04. Strategies: syngas route vs. platform molecules (WK, Download)
06.05. Synthesis gas to synthetic fuels (WK, Download)
13.05. Visit of Bioliq facility (Prof. N. Dahmen, www.bioliq.de)
20.05. From sustainable chemistry and energy to processes and plants (Prof. J. Sauer, Download, Excel-Tool)
27.05. Fuel cell technology (WK, Download)
03.06. Strategies form biomass to platform molecules (WK, Download)
10.06. Biomass-derived platform chemicals (WK, Download)
17.06. No lecture
24.06. Energetic and substantial optimization of biomass, syngas and electricity (Dr. C. Kiener, Download Part 1, Part 2)
01.07. The white biorefinery- chances and limitations (Prof. C. Syldatk, Download)
08.07. Microreactors for chemical energy storage (Prof. R. Dittmeyer, Download)
15.07. Summary and discussion (WK)
Overview on the Course (SS 2014)
Course material is only to be used for personal usage.
Last update: 16.07.2014
16.04. Welcome by Dr. Wolfgang Kleist and Prof. Jan-Dierk Grunwaldt;
Introduction: syngas route vs. platform molecules (Grunwaldt, Download)
23.04. Upgrading of biomass - Physical and Thermochemical Processes (Kleist, Download)
30.04. Strategies: syngas route vs. platform molecules (Grunwaldt, Download)
07.05. Syngas to synthetic fuels (Grunwaldt, Download vom 28.05.2014 enthält beide VL-Stunden)
14.05. Energetic and substantial optimization of biomass, syngas and electricity (Kiener, zeitlich begrenzter Download)
21.05. Prozessentwicklung und Scale-up am Beispiel des bioliq-Prozesses (Dahmen, Download)
28.05. Hydrothermal gasification (Download), syngas to synthetic fuels (Grunwaldt, Download); Link to publication on Cu-Ni catalysts for methanol synthesis
04.06. Tools for Process Development and Optimization for Processes using Biomass as Feedstock (Sauer, Download)
11.06. Microreactor technology end energy storage (Dittmeyer, Download)
18.06. Fuel cell technology (Kleist, Download)
25.06. Chemical, thermal and enzymatic cleavage of biomass constituents towards platform molecules (Grunwaldt)
02.07. Selected transformations towards C3-C6 platform chemicals (Kleist, Download)
09.07. Homework: Potential industrial applications and future concepts (for inspiration: From platform molecules to fine chemicals- Literature, "Top Value Added Chemicals From Biomass" (Pacific Northwest National Laboratory (Link) and download)
16.07. Greening the Chemistry by Industrial Biotechnology – Chances and Limitations (Syldatk, Download)
Overview on the Course (SS 2013)
Course material is only to be used for personal usage.
Last update: 16.06.2013
17.04. Welcome by Dr. Wolfgang Kleist and Prof. Jan-Dierk Grunwaldt; Introduction (Kleist, Download)
24.04. Strategies: syngas route vs. platform molecules (Grunwaldt, Download)
08.05. Energetic and substantial optimization of biomass, syngas and electricity (Kiener)
15.05. Upgrading of biomass - Physical and Thermochemical Processes (Kleist, Download)
22.05. Bioliq process (Dahmen) - Vortrag am IKFT um 9.30 Uhr, anschließende Besichtigung bis 12 Uhr (Download)
29.05. Tools for Process Development and Optimization for Processes using Biomass as Feedstock (Sauer, Download)
05.06 Hydrothermal gasification (Schubert, Download)
12.06. Syngas to synthetic fuels (Grunwaldt, Download); Link to publication on Cu-Ni catalysts for methanol synthesis
19.06. Fuel cell technology (Kleist, Download)
26.06. Chemical, thermal and enzymatic cleavage of biomass constituents towards platform molecules (Grunwaldt, Download)
03.07. Selected transformations towards C3-C6 platform chemicals (Kleist, Download)
10.07. Greening the Chemistry by Industrial Biotechnology – Chances and Limitations (Syldatk)
17.07. Recent industrial applications and future concepts: Selected transformations towards C3-C6 platform chemicals
(Kleist, Download)
Selfstudies
Project work: from platform molecules to fine chemicals- Literature, "Top Value Added Chemicals From Biomass" (Pacific Northwest National Laboratory) - Link