Specification
[1] To demonstrate the appearance and sound of cavitation in a
hydraulic system, the conditions for cavitation to occur (liquid at its vapour pressure) in a Venturi nozzle [2] Calculation of the pressure loss of a Venturi tube, verification of Bernoulli’s equation, and show how cavitation can be prevented by raising the static
pressure of a liquid above its vapour pressure
[3] adjustment of the flow rate via ball valves, pressure reducing valve, thermometer and
[6] Comparison of theoretical and actual pressure at cavitation conditions
Technical data
Pressure reducing valve
• 0.5…2bar
Transparent Venturi nozzle
•inlet inner diameter: 12…22mm with contraction: 8….12°
• output inner diameter: 16…22mm with enlargement: 3…8° • narrowest cross-section inner diameter: 2.5…6mm
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