1. Basic terms of fluid mechanics, physical properties of liquids.
2. Pressure and pressure forces in a fluid at rest, surface areas, Pascal's law, pressure force on plane and curved surfaces, Archimedes' law, stability of floating bodies of fluid at relative rest.
3. Fluid dynamics - laminar and turbulent flow, turbulence, continuity equation.
4. Real fluid flow - Navier-Stokes equation, Bernoulli's equation for a compressible fluid in a gravitational field, Bernoulli's equation for an incompressible fluid, subsequent simplification
5. Measurement of fluid parameters – flow rate, pressure, velocity. Water level measurement. ,
6. Modeling - local losses, friction losses.
7. Modeling - aerodynamics. Vortex structures.
8. Pumps and their characteristics - hydrostatic, hydrodynamic. Bernoulli's equation for a rotating channel.
9. Pumping system – piping systems, working point. Regulation of hydraulic system parameters.
10. Unsteady flow of incompressible fluid through pipelines, hydraulic hammer. Momentum change theorem.
11. Applications of fluid mechanics in hydraulic systems.
12. Applications of fluid mechanics in pneumatic systems.
13. Industrial and engineering applications.
2. Pressure and pressure forces in a fluid at rest, surface areas, Pascal's law, pressure force on plane and curved surfaces, Archimedes' law, stability of floating bodies of fluid at relative rest.
3. Fluid dynamics - laminar and turbulent flow, turbulence, continuity equation.
4. Real fluid flow - Navier-Stokes equation, Bernoulli's equation for a compressible fluid in a gravitational field, Bernoulli's equation for an incompressible fluid, subsequent simplification
5. Measurement of fluid parameters – flow rate, pressure, velocity. Water level measurement. ,
6. Modeling - local losses, friction losses.
7. Modeling - aerodynamics. Vortex structures.
8. Pumps and their characteristics - hydrostatic, hydrodynamic. Bernoulli's equation for a rotating channel.
9. Pumping system – piping systems, working point. Regulation of hydraulic system parameters.
10. Unsteady flow of incompressible fluid through pipelines, hydraulic hammer. Momentum change theorem.
11. Applications of fluid mechanics in hydraulic systems.
12. Applications of fluid mechanics in pneumatic systems.
13. Industrial and engineering applications.