Fluid Mchanics
DFBME-409
P610-0329, P610-0344, P610-0548
dfhim3
4
VU
5
4
yes
German
DFBME-409
Mechanical Engineering
4
mandatory course
DFBME-409
Mechanical Engineering
4
mandatory course
60 class hours (= 45 clock hours) over a 15-week period.The total student study time is 150 hours (equivalent to 5 ECTS credits).There are therefore 105 hours available for class preparation and follow-up work and exam preparation.
Prof. Dr. Marco Günther
mgu
Prof. Dr. Marco Günther
mgu
After successfully completing this module, students will be familiar with the basics of fluid mechanical quantities and laws. They will be able to apply the laws of fluid mechanics to simple practical problems from the fields of hydrostatics, hydrodynamics and aerodynamics. Students will be able to perform calculations of state variables in incompressible and compressible flows and have basic experience in using a calculation tool. Exercises will teach students to classify fluid statics and steady-state fluid mechanical processes and their effects, taking into account the factors that influence them, and to calculate them in engineering terms.
Fluid statics:
fluid properties, state variables, pressure concept and distribution, effects of force on container walls, buoyancy and thermal lift
Incompressible frictionless flows:
current filament theory, equations of motion for a fluid element, conservation laws of the stationary current filament theory (conservation of mass, energy theorem), pressure and velocity measurement
Incompressible frictional flows:
Frictional influence, fluid mechanical similarity and indices, laminar and turbulent flow, steady-state pipe flow, flows in piping systems, outflow processes.
Incompressible flows:
Principle of linear momentum, principle of angular momentum
Compressible flows:
Energy equation, outflow processes, supersonic flow
Application of computational fluid dynamics:
Exemplary applications of CFD simulation software (like Ansys Fluent, Ansys CFX, Comsol Multiphysics)
- Lecture with integrated exercises, exercises for self-study
Blackboard, transparencies, lecture notes, videos, exercises
Bohl: Technische Strömungslehre; v. Böckh: Fluidmechanik; Herwig: Strömungsmechanik; Herwig: Strömungsmechanik A-Z; Kümmel: Technische Strömungsmechanik; Oertel, Böhle, Dohrmann: Strömungsmechanik
Sat Jul 13 01:01:07 CEST 2024, CKEY=dff, BKEY=dfhim3, CID=[?], LANGUAGE=en, DATE=13.07.2024