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[ TCBPDUEKKRT ] UE Exercises in Kinetics, Catalysis and Reaction Engineering
Versionsauswahl
Es ist eine neuere Version 2018S dieser LV im Curriculum Bachelor's programme Technical Chemistry 2018S vorhanden.
(*) Unfortunately this information is not available in english.
Workload Education level Study areas Responsible person Hours per week Coordinating university
1,6 ECTS B2 - Bachelor's programme 2. year Chemistry Oliver Brueggemann 1 hpw Johannes Kepler University Linz
Detailed information
Original study plan Bachelor's programme Technical Chemistry 2012W
Objectives Term 1: Kinetics
Understandig of the course of reaction, solving of practical examples

Term 2: Catalysis
Understanding of catalytic mechanisms with selected technical and biological examples

Term 3: Reaction Engineering
The goal is to apply theoretical knowledge to conduct a respective experiment and analyze the obtained data

Subject Kinetics:

  1. Transport processes, chemical kinetics
  2. Basics of chemical kinetics, reaction rate, reaction kinetics, reaction order
  3. Formal kinetics / basic reactions, reactions of order 0, 1 and 2, incomplete reactions, temperature dependence
  4. Experimental determination of the reaction order
  5. Complex reaction, parallel reaction, consecutive reaction, reversible reaction, quasi stationarity, upstream equilibrium, chain branches and explosion
  6. Theory of reaction rate, impact theory, theory of the transitional state
  7. Reactions in diverse media, gas phase reactions, reactions in solution, diffusion controlled reactions

Catalysis:

  1. Introduction
  2. History
  3. Enzymes and biocatalysis
  4. Homogeneous und heterogeneous catalysis
  5. Kinetics of catalysed reactions
  6. Adsorption in heterogeneous catalysis
  7. Mass transport in heterogeneous catalysis
  8. Conversion and yield
  9. Activity and selectivity of catalysts
  10. Stability of catalysts
  11. Catalysis in chemical reactors
  12. Acid-base catalysis
  13. Catalysis in industry
  14. Newest developments in catalyst research

Reaction engineering:

  1. Basic types of chemical reactors
  2. Ideal, isothermal run reactors
  3. Series of stirred tanks and recycling
  4. Kinetic data obtained by laboratory tests
  5. Real reactors
  6. Non-isothermal reactors
  7. Mass transfer and mass transport
  8. Criteria for the selection of chemical reactors
Criteria for evaluation Attendance
Attention, Participation and willingness to solve problems at the blackboard
Understanding of the conducted experiment (multiple choice)
Practical ability to conduct an experiment
Interpretation of the collected data
Methods Moderation, answering questions of the students
Compiling solutions by the students
Instructions for the students to conduct an experiment
Language German
Study material Lecture slides
Individually designed exercise sheets
Changing subject? No
Corresponding lecture (*)ist gemeinsam mit TCBPDVOPYC2: VO Physikalische Chemie II (2,6 ECTS) +
TCBPDPRPYC1: PR Praktikum aus Physikalischer Chemie I (6 ECTS) +
TCBPDVOKKRT: VO Kinetik, Katalyse und Reaktionstechnik (3,9 ECTS)
äquivalent zu
WT1PDVOPC04: VO Physikalische Chemie II (6 ECTS) +
WT1PDPRPC03: PR Praktikum aus Physikalischer Chemie I (6 ECTS) +
WT1PDPRPC06: PR Praktikum aus Physikalischer Chemie II (3,5 ECTS)
On-site course
Maximum number of participants 30
Assignment procedure Direct assignment