13970 - Numerical Fluid Mechanics Modulübersicht

Module Number: 13970
Module Title:Numerical Fluid Mechanics
  Numerische Strömungsmechanik
Department: Faculty 3 - Mechanical Engineering, Electrical and Energy Systems
Responsible Staff Member:
  • Prof. Dr.-Ing. Egbers, Christoph
Language of Teaching / Examination:English
Duration:1 semester
Frequency of Offer: Every summer semester
Credits: 6
Learning Outcome:The student will be able to identify and characterise fluid mechanical problems and implement those into numerical equations to process those in the open source CFD code “OpenFOAM”. Here, the student will learn the application of computational simulations for different fluid dynamical processes and expand their horizon of more complex flow problems and how they are solved.
Contents:The content of the lecture includes fluid mechanical processes in nature and industry such as heat and mass transfer, vortex formation in incompressible and compressible flows, turbulence modelling and multiphase flows.
The student will learn the equation of motion of fluids, the definition of boundary conditions, meshing the geometry, the finite volume method with its numerical discretisation schemes, solving the governing equations and monitoring its convergence and stability. The course will cover the numerical application in the discipline of heat and mass transfer, compressible flow and turbulent flow. The post-processing of results will be taught by visualising and evaluating the computed values in ParaView.
Recommended Prerequisites:
  • fluid mechanics
  • numerical methods
Mandatory Prerequisites:None
Forms of Teaching and Proportion:
  • Lecture / 2 Hours per Week per Semester
  • Exercise / 2 Hours per Week per Semester
  • Self organised studies / 120 Hours
Teaching Materials and Literature:
  • Script
  • OpenFOAM User Guide; OpenFOAM Programmer's Guide
Module Examination:Continuous Assessment (MCA)
Assessment Mode for Module Examination:
  • written project work, approx. 5000 words of text, excluding references to figures or tables, appendix and indexes (70%)
  • Presentation of the results, approx. 15 min plus question section (30%)
The module is considered to have been passed if 50% of the partial performances have been successfully completed.
Evaluation of Module Examination:Performance Verification – graded
Limited Number of Participants:None
Part of the Study Programme:
  • Master (research-oriented) / Maschinenbau / PO 2023
  • Master (research-oriented) - Reduced Semester / Maschinenbau / PO 2023
  • Master (research-oriented) - Co-Op Programme with Practical Place / Maschinenbau - dual / PO 2023
Remarks:None
Module Components:VL + Ü Numerical Fluid Mechanics
Components to be offered in the Current Semester: