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315.757
Fuel Cell Programming
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.
2024W
2023W
2022W
2021W
2023W, RU, 1.0h, 1.5EC
TUWEL course
Properties
Semester hours: 1.0
Credits: 1.5
Type: RU Calc. Exercise
Format: Presence
Learning outcomes
After successful completion of the course, students are able to...
to formulate the electrochemical conservation equations in a fuel cell.
solve the resulting boundary value problem in MATLAB.
carry out an analysis of the potential losses.
Subject of course
Working principle of a PEM fuel cell
Electrochemical conservation equations
Polarization curve and loss analysis
Programming in MATLAB
Teaching methods
Introduction to fuel cells (lecture)
Introduction to the mathematical approach (lecture)
Q & A
Mode of examination
Oral
Lecturers
Lauer, Thomas
Haslinger, Maximilian
Institute
E315 Institute of Powertrains and Automotive Technology
Course dates
Day
Time
Date
Location
Description
Thu
13:00 - 16:00
09.11.2023
Seminarraum BA 10B - MB
Rechenübung Brennstoffzelle
Thu
13:00 - 16:00
23.11.2023
Seminarraum BA 10B - MB
Rechenübung Brennstoffzelle
Thu
13:00 - 16:00
07.12.2023
Seminarraum BA 10B - MB
Q&A Brennstoffzelle
Examination modalities
Program Code MATLAB
Calculated Examples
Oral exam
Course registration
Begin
End
Deregistration end
01.09.2023 08:00
08.11.2023 12:00
Curricula
Study Code
Obligation
Semester
Precon.
Info
700 FW Elective Courses - Mechanical Engineering
Not specified
Literature
No lecture notes are available.
Language
German