Lehrinhalte
Properties of fluids;
hydrostatics: pressure force, stability of floating bodies;
momentum conservation, Bernoullis equation,
momentum equation for finite volumes, Borda loss;
viscous forces, laminar and turbulent flow; similarity, dimensionless numbers in hydromechanics;
Forces on bodies, wall friction;
Pipe flow: resistance law, Darcy-Weisbach friction factor, Moody and Colebrook-White equations, local and continuous losses, expansion/contraczion head losses;
open channel flow: momentum and velocity distribution, Colebrook-White formula for open channel flow, backwater and drawdown curve, sub- and supercritical flow, critical flow depth , flood routing, two-stage channels;
weir formula, Poleni, orifice flow, Torricelli equation;
potential flow groundwater flow
Properties of fluids;
hydrostatics: pressure force, stability of floating bodies;
momentum conservation, Bernoullis equation,
momentum equation for finite volumes, Borda loss;
viscous forces, laminar and turbulent flow; similarity, dimensionless numbers in hydromechanics;
Forces on bodies, wall friction;
Pipe flow: resistance law, Darcy-Weisbach friction factor, Moody and Colebrook-White equations, local and continuous losses, expansion/contraczion head losses;
open channel flow: momentum and velocity distribution, Colebrook-White formula for open channel flow, backwater and drawdown curve, sub- and supercritical flow, critical flow depth , flood routing, two-stage channels;
weir formula, Poleni, orifice flow, Torricelli equation;
potential flow groundwater flow
- Lehrende: Boris Lehmann
- Lehrende: Peter Mewis
Semester: ST 2018