Industrial Fluid Mechanics - Focus area
The following study plan assumes start of study in September, such that 1. semester is fall, 2. semester is spring, 3. semester is fall and the thesis work is carried out in spring. It includes only one spring semester of courses.
The study plan is not mandatory but is a recommended study plan that fulfills the requirements. All other study plans also have to fulfill the requirements, including maximum 2 years of study for obtaining 120 ECTS.
The discipline focuses on addressing practical industrial flow problems using classical physics, applied mathematics, and numerical and experimental methods. The approach is, on the one hand, purely theoretical by formulating and applying mathematical models to the problems and solving them using computers and, on the other hand, purely experimental by studying and measuring flows in order to verify and improve the applied models.
The study plan is not mandatory but is a recommended study plan that fulfills the requirements. All other study plans also have to fulfill the requirements, including maximum 2 years of study for obtaining 120 ECTS.
The discipline focuses on addressing practical industrial flow problems using classical physics, applied mathematics, and numerical and experimental methods. The approach is, on the one hand, purely theoretical by formulating and applying mathematical models to the problems and solving them using computers and, on the other hand, purely experimental by studying and measuring flows in order to verify and improve the applied models.
Industrial Fluid Mechanics
Electives (examples):
02616 | Large-scale Modelling | 5 | point | Spring F3A (Tues 8-12) |
10337 | Theoretical microfluidics | 5 | point | Autumn E4A (Tues 13-17) |
41111 | Hydrodynamics 2 | 5 | point | Autumn E3A (Tues 8-12) |
41315 | Applied CFD | 5 | point | June |
41343 | Fuels and emissions from current and future transportation | 5 | point | June |
41418 | Green fuels and power-to-x | 5 | point | Spring F3A (Tues 8-12) |
41420 | Refrigeration and Heat Pump Technology | 10 | point | Autumn E5 (Wed 8-17) |
41524 | Tribology of machine elements | 5 | point | Autumn E1B (Thurs 13-17) |
41813 | Finite Element Methods for sound and vibrations | 5 | point | Spring F5A (Wed 8-12) |
Note: You can maximum obtain 30 ECTS of elective credits.
Industrial Fluid Mechanics (schedule)
Polytechnical foundation
Programme specific courses
Thesis
Electives
1.Semester
41417
Digitalization of Thermal Energy... Digitalization of Thermal Energy Technologies – Modelling and Simulation Methods
Digitalization of Thermal Energy... Digitalization of Thermal Energy Technologies – Modelling and Simulation Methods
5 point
Elective
Elective
Elective
Shared
2.Semester
3.Semester
4.Semester
Master thesis
Master thesis
Master thesis
30 point