Data Sheet for Product
4
Siemens
A6V12170259_en--_a
Smart Infrastructure
2021-05-26
Ball valve characteristic curve
Flow rate k
v
/ k
vs
Rotational angle
Flow characteristics
0…100 %
-> A ─ AB equal percentage, n
gl
= 3 per VDI / VDE 2173
Cavitation
Cavitation increases wear and tear of the ball and seat and results in unwanted noise.
Cavitation can be prevented by not exceeding the differential pressures as per the flow
diagram and maintaining the static pressures depicted below.
Δp
max
=
Differential pressure at a nearly closed ball
valve to largely avoid cavitation
P
1
=
Static pressure at the ball valve inlet
P
3
=
Static pressure at the ball valve outlet
M
Pump
ϑ
Water temperature
Example with hot water:
Pressure p
1
at ball valve inlet: 500 kPa (5 bar)
Water temperature: 120 °C
The above diagram clearly indicates that the maximum permissible differential pressure is
Δp
max
→ 200 kPa (2 bar) at a nearly closed ball valve.
Note on chilled water applications
To prevent cavitation in chilled water circuits, sufficient counter pressure must be supplied to
the ball valve outlet, e.g. using an additional butterfly valve downstream of the ball valve.
Maximum permissible differential pressure over the ball valve: See 80 °C curve in the
diagram.