Courses



16 different courses found Cancel search
Faculty of Chemistry and Pharmacy
INFO Master's Programme according to the curriculum 2019 (120 ECTS-Credits, 4 semesters)
Compulsory Module (72.5 ECTS-Credits)
Compulsory Module 1: Chemical Reaction Technology I (5 ECTS-Credits, 4 h)
Prerequisites for registration: none
Learning Outcome: Students acquire sound theoretical knowledge of the basics of (large-scale) chemical engineering technology, mathematical calculation and treatment of multicomponent systems, the equipment and components of a (large) chemical plants, the process steps of catalysed chemical reactions and the output and separation of product streams.
751001
VO Chemical reaction technology I (VO / 3h / 4 ECTS-AP)
Thomas Höfer, Oliver Ingolf Strube
Details of this course
ML
751002
VU Calculating examples for chemical reaction technology I (VU / 1h / 1 ECTS-AP)
Thomas Höfer, Oliver Ingolf Strube
Details of this course
Compulsory Module 2: Thermal Process Engineering I (5 ECTS-Credits, 4 h)
Prerequisites for registration: none
Learning Outcome: Students know relevant thermal unit operations and interpret them graphically as well as numerically in consideration of the essential operating parameters.
751003
VO Thermal process engineering I (VO / 4h / 5 ECTS-AP)
Kai Olaf Langenbach, Eva Mühlegger
Details of this course
Compulsory Module 3: Heat and Mass Transfer (5 ECTS-Credits, 4 h)
Prerequisites for registration: none
Learning Outcome: Students acquire knowledge for the fundamental treatment of substance-converting processes and for the calculation of the material and energy balance. Students are familiar with complex (one- and multi-dimensional) processes of material and heat transport processes and they can scale them into process engineering processes using numerical methods.
751004
VO Mass and energy balances (VO / 1h / 1 ECTS-AP)
Kai Olaf Langenbach
Details of this course
751005
VO Heat and mass transfer (VO / 3h / 4 ECTS-AP)
Kai Olaf Langenbach, Christian Wachsmann
Details of this course
Compulsory Module 9: Biochemical Process Engineering (5 ECTS-Credits, 4 h)
Prerequisites for registration: none
Learning Outcome: Students are able to apply the methods of mechanical, chemical and thermal process engineering to technically used biological reactions taking into account the specific conditions of biochemical processes. The students are able to describe bio-reaction processes mathematically.
751006
VO biochemical process engineering (VO / 3h / 4 ECTS-AP)
Thomas Pümpel, Oliver Ingolf Strube
Details of this course
751007
PR Biochemical process engineering laboratory (PR / 1h / 1 ECTS-AP)
Desiree Josefine Artmann-Pabst
Details of this course
Compulsory Module 11: Chemical Reaction Technology Laboratory (7.5 ECTS-Credits, 5 h)
Prerequisites for registration: positive completion of compulsory module 1
Learning Outcome: The students apply their theoretical knowledge to practical systems and acquire skills in project and time management as well as team dynamics.
751017
PR Chemical Reaction Technology Laboratory (PR / 5h / 7,5 ECTS-AP)
Florian Albrecht, Thomas Höfer, Franziska Obermeier, Oliver Ingolf Strube
Details of this course
Compulsory Module 12: Applied Fluid Mechanics (2.5 ECTS-Credits, 2 h)
Prerequisites for registration: none
Learning Outcome: Students learn the basics of fluid mechanics and viscosity with regard to CFD-modelling and their relation to other transport phenomena.
751018
VO Applied Fluid Mechanics (VO / 2h / 2,5 ECTS-AP)
Martin Pillei
Details of this course
Compulsory Module 13: Measurement and Control Technology (2.5 ECTS-Credits, 2 h)
Prerequisites for registration: none
Learning Outcome: Students acquire knowledge of modern and continuous measuring methods in technical systems, they can read process diagrams and evaluate the relevance of control methods.
751019
VO Measurement and Control Technology (VO / 2h / 2,5 ECTS-AP)
Simon Wolfgang Bachler, Jens Wurm
Details of this course
Compulsory Module 15: Computerised Process Engineering (5 ECTS-Credits, 3 h)
Prerequisites for registration: none
Learning Outcome: Students advance their theoretical and practical knowledge of process engineering processes using computer-based methods.
751020
VO Computerised Process Engineering (VO / 2h / 3 ECTS-AP)
Kai Olaf Langenbach, Joe-Hin Matthias Yip
Details of this course
751021
PR Calculations in Computerised Process Engineering (PR / 1h / 2 ECTS-AP)
Kai Olaf Langenbach, Joe-Hin Matthias Yip
Details of this course
Elective Modules in Advanced Specialisation (15 ECTS-Credits)
Wahlmodule der fachlichen Vertiefung in Chemieingenieurwissenschaften Aus diesen Wahlmodulen sind Module im Umfang von insgesamt 15 ECTS-AP zu absolvieren.
Elective Module 1: Current Topics in Chemical Engineering (5 ECTS-Credits, 4 h)
Prerequisites for registration: none
Learning Outcome: The students acquire well-founded knowledge in current research fields of chemical engineering.
751022
VO Advanced Process Engineering II (VO / 2h / 2,5 ECTS-AP)
Oliver Ingolf Strube
Details of this course
Elective Module 2: Industrial Scale-up and Product Design (2.5 ECTS-Credits, 2 h)
Prerequisites for registration: none
Learning Outcome: Internationalisation of knowledge in the field of chemical / thermal process engineering and development of small case studies, optimisation of presentation skills
751100
VO Industrial Scale-up and Process Design (VO / 1h / 1,5 ECTS-AP)
Albert Rössler
Details of this course
ML
751101
SE Industrial Scale-up and Process Design (SE / 1h / 1 ECTS-AP)
Albert Rössler
Details of this course
INFO Doctoral Programme Chemistry according to the curriculum 2009 (180 ECTS-Credits, 6 semesters)
Compulsory Modules (30 ECTS-Credits)
Compulsory Module 2: Department Seminar (10 ECTS-Credits, 10 h)
Prerequisites for registration: none
Learning Outcome: Having successfully completed this module, students are able to actively participate in the discussion of the current state of knowledge in the area of the dissertation topic and can critically reflect on and discuss issues with experts in the chosen special discipline of chemistry.
Compulsory participation in five special field seminars as defined by in the dissertation agreement and based on the dissertation theme; special fields are: Analytical Chemistry, Inorganic Chemistry, Biochemistry, Organic Chemistry, Physical Chemistry, Textile Chemistry, and Theoretical Chemistry.
ML
751900
SE Seminar (SE / 2h / 2 ECTS-AP)
Kai Olaf Langenbach, Oliver Ingolf Strube
Details of this course