165.103 Kinetics and Catalysis
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2022S, VO, 2.0h, 3.0EC
TUWEL

Properties

  • Semester hours: 2.0
  • Credits: 3.0
  • Type: VO Lecture
  • Format: Hybrid

Learning outcomes

After successful completion of the course, students are able to apply the discussed topics in an independent and sustainable manner, in order to solve fundamental and technological problems in "kinetics and catalysis" research.

Subject of course

1) Introduction (history of kinetics, nanotechnology and catalysis)
2) Basics of chemical kinetics (reaction rates, methods of measurement, chain reactions, explosions)
3) Collision theory (molecular beams), Eyring (transition state) theory, potential energy surfaces
4) Reactions in solution, photochemical processes
5) Homogeneous catalysis, enzyme kinetics
6) Heterogeneous catalysis (adsorption at surfaces, mechanisms)
7) Industrial-scale catalysis (synthesis gas, ammonia, water-gas shift)
8) Environmental catalysis (air, water treatment)
9) Methods in catalysis research (synthesis, physical-chemical characterization, in situ spectroscopy)
10) Catalysis on an atomic/molecular level

Teaching methods

Discussion of theoretical fundamentals and application to up-to-date exa,ples form research and development.

Mode of examination

Oral

Additional information

Diese LVA wird durch TUWEL (TU Wien E-Learning) unterstützt.
Um auf die Onlineressourcen der LVA zugreifen zu können sind folgende Schritte erforderlich:

  1. Abonnieren Sie die LVA.
  2. Melden Sie sich zu einer Gruppe der LVA an.
  3. Erst wenn Ihre Anmeldung durch die LVA-LeiterIn bestätigt wurde, haben Sie Zugang zu den Onlineressourcen der LVA.
    Sie erhalten diese Bestätigung von TISS per Email.
  4. Melden Sie sich bei TUWEL mit folgenden Daten an (Login: Matrikelnummer, Passwort: IhrTUPasswort).

 

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Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Tue09:00 - 11:0001.03.2022 - 28.06.2022Seminarraum Lehar 01 VO Kinetics and Catalysis
Kinetics and Catalysis - Single appointments
DayDateTimeLocationDescription
Tue01.03.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue08.03.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue15.03.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue22.03.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue29.03.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue05.04.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue26.04.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue03.05.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue10.05.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue17.05.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue24.05.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue31.05.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue14.06.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue21.06.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis
Tue28.06.202209:00 - 11:00Seminarraum Lehar 01 VO Kinetics and Catalysis

Examination modalities

Oral exam

9-12h

register via TISS

 

Course registration

Begin End Deregistration end
24.01.2022 12:00 09.07.2022 09:00 09.07.2022 12:00

Group Registration

GroupRegistration FromTo
Teilnehmerliste07.03.2022 12:0009.07.2022 09:00

Curricula

Literature

Lecture notes for this course are available. Vorlesungsunterlagen unter TUWEL verfügbar Chorkendorff, I.; Niemantsverdriet, J. W. Concepts of Modern Catalysis and Kinetics; Wiley-VCH: Weinheim, 2003.

Previous knowledge

basic knowledge in kinetics and thermodynamics required

Miscellaneous

  • Attendance Required!

Language

German