| studiehandbok@lith | |
|
|
|
|
|
| TMMV53 | Computational Fluid Mechanics, 5 p (sw) /Beräkningsmetoder i strömningslära/ Advancement level: D | |
| Aim: This course aims at giving the students understanding of and proficiency in computational methods applied to fluid-flow problems. Special attention is paid to finite-difference and finite-volume methods for one- two- and three-dimensional problems. Major attention is devoted to understanding of the coupling between real problem, model and computational model. Knowledge in modelling practical problems is treated.Prerequisites: Numercial Methods, Algebra, Analysis, Analysis continuation course, Energy Technology basic course, and preferably Modelling and Simulation - Energy and Computational Methods in Heat Transfer. Familiarity with MATLAB (or equivalent) is also desirable.Supplementary courses: The subject area Applied Thermodyamics and Fluid Mechanics gives doctoral courses which can, where suitable, serve as a continuation course for interested studentsCourse organization: Teaching is in the form of seminars andproject work of varying scope. The course includes a large amount of computer work. Course content: Basic fluid mechanics and its equations, Similarity, Problem formulation. Computational methods - an overview, the Finite Difference method, the Finite Volume mehtod, Discretization, Boundary conditions, Transient problems, Geometry transformations, Turbulence and turbulence models.Course literature: Computational Fluid Dynamics - the basics with applications, John D. Anderson Jr, McGraw-Hill 1998Assessment: | ||
| PRA1 The following tasks are obligatory, 2 minor projects to be reported in writing. 0 points PRA2 One advanced project task to be reported in writing, 5 points | ||
| |
|
|
 |
|||||
|
|
||||||
