Lehrinhalte
momentum conservation, mass flux, acceleration and velocity;
basic equations of hydromechanics and hydraulics: derivation of mass-, momentum and energy conservation laws;
conservation laws of rotation;
specific solutions of the Navier-Stokes equations;
basic outline of turbulence theory;
boundary layers and flow separation;
water hammer computation in unsteady pipe flow;
pipe network computation;
non-Newtonian (Bingham) Fluids;
sediment transport;
momentum conservation, mass flux, acceleration and velocity;
basic equations of hydromechanics and hydraulics: derivation of mass-, momentum and energy conservation laws;
conservation laws of rotation;
specific solutions of the Navier-Stokes equations;
basic outline of turbulence theory;
boundary layers and flow separation;
water hammer computation in unsteady pipe flow;
pipe network computation;
non-Newtonian (Bingham) Fluids;
sediment transport;
- Lehrende: Boris Lehmann
- Lehrende: Peter Mewis
Semester: WT 2018/19