This part of IEC 60534 establishes a theoretical method to predict the external soundpressure
level generated in a control valve and within adjacent pipe expanders by the flow
of compressible fluids.
This method considers only single-phase dry gases and vapours and is based on the perfect
gas laws.
This standard addresses only the noise generated by aerodynamic processes in valves and
in the connected piping. It does not consider any noise generated by reflections from
external surfaces or internally by pipe fittings, mechanical vibrations, unstable flow patterns
and other unpredictable behaviour.
It is assumed that the downstream piping is straight for a length of at least 2 m from the
point where the noise measurement is made.
This method is valid only for steel and steel alloy pipes (see Equations (21) and (23) in 5.5).
The method is applicable to the following single-stage valves: globe (straight pattern and
angle pattern), butterfly, rotary plug (eccentric, spherical), ball, and valves with cage trims.
Specifically excluded are the full bore ball valves where the product FpC exceeds 50 % of
the rated flow coefficient.
For limitations on special low noise trims not covered by this standard, see Clause 8. When
the Mach number in the valve outlet exceeds 0,3 for standard trim or 0,2 for low noise trim,
the procedure in Clause 7 is used
The Mach number limits in this standard are as follows:
IEC 60534-8-3:2010 history
2010IEC 60534-8-3:2010 Industrial-process control valves - Part 8-3: Noise considerations - Control valve aerodynamic noise prediction method
2000IEC 60534-8-3:2000 Industrial-process control valves - Part 8-3: Noise considerations; Control valve aerodynamic noise prediction method
1995IEC 60534-8-3:1995 Industrial-process control valves - Part 8: Noise considerations - Section 3: Control valve aerodynamic noise prediction method