From 2 November 2020, the autumn semester 2020 will take place online. Exceptions: Courses that can only be carried out with on-site presence.
Please note the information provided by the lecturers via e-mail.

066-0423-00L  Application of CFD in Buildings

SemesterAutumn Semester 2016
LecturersD. Lakehal
Periodicityyearly recurring course
Language of instructionEnglish
CommentLimited number of participants.
Enrolment is only possible in agreement with the chair.


AbstractFundamentals, Applications and Project works in the area of CFD in buildings.
ObjectiveUnderstanding:
- Basic principles of fluid flow & heat transfer
- Basic concepts of CFD
- Validation and verification, practical guidelines

Application and project works of CFD in buildings including the fields of:
- Building aerodynamics
- Steady vs. unsteady wind loads on urban structures
- Air pollution and contaminant dispersion
- Indoor ventilation
- CFD for renewable energy in the urban physics: Wind loads on roof-mounted solar photovoltaic arrays, coupled solar-wind energy generation applications, etc.
ContentI. Fundamentals
- Basic principles of fluid flow & heat transfer
- Laminar versus turbulent flow
- Forced vs. natural convection
- Basic concepts of CFD (Discretization, schemes, etc.)
- Turbulence modelling
- Near-wall treatment
- Validation and verification, practical guidelines

II. Applications
CFD for:
- Building aerodynamics
- Steady vs. unsteady wind loads on urban structures
- Air pollution and contaminant dispersion
- Indoor ventilation
- CFD for renewable energy in the urban physics: Wind loads on roof-mounted solar photovoltaic arrays, coupled solar-wind energy generation applications, etc.

III. Project work
- Geometry and grid generation (from CAD to domain meshing)
- Exp. wind engineering
- Boundary conditions, solver settings and solution
- Data Post-processing
- Validation and error estimation
- Hands-on-Training
- Presentation
Lecture notesMaterial will be sent to the students before the start of the course.
LiteratureWe will update the material in due time.