Transient flow
Transient flow: the velocity of a fluid particle changes with the time and the position. Transient flows occur during discharge processes, during startup and shutdown processes of turbomachines or in the case of fluid oscillations and water hammer processes.
Transient drainage processes are taken into consideration e.g.:
- when deciding on the dimensions of storage reservoirs
- in the design of bottom outlets in dams
- when water flows out of a basin into a pipe
- when two fluids with different speeds meet each other
Recording the trajectory of the water jet and discharge coefficients at different outlet velocities
Learning objectives/experiments
- investigate how the level in the tank affects the outlet velocity
- apply Bernoulli’s equation
- compare determined and theoretical outlet velocity
- investigate outlet inserts with different diameters and inlet contours, determine pressure loss coefficients
- investigate how the outlet velocity and the pressure loss coefficient affect the trajectory of the water jet
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Recording the trajectory of the water jet at different outlet velocities
Learning objectives/experiments
- Torricelli’s law
- determine the level as a function of time
- determine evacuation times
- determine the trajectory of the water jet for
- different outlet velocities
….
- different outlet velocities
Determination of pressure losses and discharge coefficient for different outlet contours
Learning objectives/experiments
- Torricelli’s law
- determine the level as a function of time
- determine evacuation times
- study of the outlet jet (diameter, velocity)
- determination of flow rate at different discharge heads
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Free and forced vortex; point gauges to detect surface profiles
Learning objectives/experiments
- visualisation of various vortices
- investigation of free and forced vortices
- representation of surface profiles
- comparison between measured and calculated profiles
- determination of rotational speed
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Demonstration of the function of a rainwater retention basin and a storage lake
Learning objectives/experiments
- demonstrating transient drainage processes in two rainwater retention basins located one behind the other
- demonstrating transient drainage processes in two storage lakes located one behind the other
- recording oscillations of the water level in a surge chamber after water hammer
- recording and displaying water level fluctuations
Water hammer is caused by the inertia effect of the flowing fluid being subjected to an abrupt changes in velocity, e.g. when rapidly closing a valve. There is a distinction to be made between rapid pressure changes that propagate with the sound velocity (water hammer) and slow pressure changes caused by mass oscillations.
Formation and effect of water hammer
Learning objectives/experiments
- demonstrate formation and effect of water hammer
- principle of a ram
- function of an air vessel
- effect of air volume in the air vessel and the flow velocity on the pump behaviour
- efficiency analysis
Water hammer as a function of valve closing time; calculation of the wave propagation velocity in water
Learning objectives/experiments
- water hammer as a function of flow rate
- water hammer as a function of valve closing time
- display pressure curve
- determine reflection time
- calculation of the wave propagation velocity in water
Investigation of formation, effect and function
Learning objectives/experiments
Transient flow conditions in pipe systems by means of experimentation
- demonstrating water hammer in pipes
- determining the wave propagation velocity in water
- understanding how a surge chamber works
- natural frequency in the surge chamber