Læringsutbytte

A candidate who has passed the course will have a learning outcome in the form of acquired knowledge, skills, and general competence, as described below.

Knowledge

The candidate will:

• understand the meaning of the terminology associated with computational fluid dynamics
• understand the physical principles associated with the subject
• understand the general transport equations for mass, momentum and energy
• understand the numerical methods for solving the transport equations for mass, momentum, energy and other scalar transport equations
• understand the physical behaviour of turbulence and how it is modelled in RANS

Skills

The candidate will:

• be able to apply adequate methods, techniques and equations in solving problems using CFD
• be able to apply and solve the transport equations for mass, momentum and energy
• be able to assess different numerical methods for solving transport equations
• be able to use relevant CFD software

General competence

The candidate will:

• be able to use CFD on new problems
• be able to report results from CFD-analysis
• be able to apply the transport equations in new problems

Innhold

• Derivation of the transport equations of mass, momentum and energy, both generally and for a Newtonian fluid
• Turbulence and modelling of turbulence in RANS
• Numerical methods for convection and diffusion problems
• Numerical methods for pressure-velocity linked equations
• Numerical methods for algebraic equations
• Boundary conditions for transport equations
• Computer lab with relevant CFD software

Arbeids- og læringsformer

Lectures, exercises, computer lab and assignments are used.

Vurderingsformer

The final test counts 100 % - one week home exam .
Grades A-F are used.

Det tas forbehold om mindre justeringer i planen.