[Forside] [Hovedområder] [Perioder] [Udannelser] [Alle kurser på en side]
Fluids are flowing everywhere: wind around turbines, buildings and mountains; water in rivers and oceans; gas in pipes and engines; in reactors; as blood in our vessels; in biological cells; and many more examples. The goal of this course is to bring this diversity to the attention of students, and to give a solid understanding of basic fluid flows, its equations as well as analytical solutions. The course is also intended as a preparation for subsequent courses on computational fluid dynamics.
Deformable solids, stress, strain, linear elasticity, elastostatics, elastodynamics, wave phenomena, basic hydrodynamics, ideal flows, Euler equation, potential flow, pipe flow, solitons, viscous flows, Navier Stokes equation, Reynolds averaged Navier Stokes equation, closure problem, Large Eddy simulation, boundary layer flow, Reynolds number, turbulence modelling, reacting flows.
bachelor degree in engineering, physics, chemisty, health or similar.
Martin Greiner, Uffe Poulsen
The goal of the course is to get a solid understanding of basic fluid flows, its equations and analytical solutions, as well as its diverse applications. The course is divided into teaching sessions (50 %) and problem sessions (50%).
Lautrup B: Physics of Continuous Matter. IOP, 2005. ISBN 0750307528.
Aarhus School in Engineering
Master's degree programme in Applied Mechanics,
Master's degree programme in Architectural Engineering,
Master's degree programme in Process Technology
Upon completion of the course, the student is expected to be able to:
The students will as standard take part in a 3 hours written examination, evaluating the level of achieving the learning outcomes and competences.
The assessment is judged after the 7- level scale, internal marking
