York HVAC Catalogue 2018 EN 2019 EN | Page 85

YORK ® AIR-CONDITIONING PRODUCTS
Chiller sound measurement
Chiller sound power Chiller sound pressure
Sound Power is the property of the chiller only and can be used directly
to compare the Sound Power of the chillers of one manufacturer
against another. Most Sound Power data is quoted with reference to
standard ISO 3744 which is entitled ‘Sound Power Levels of noise
Sources’ and is sub-titled ‘Engineering methods of determination of
sound power levels for sources in free field conditions over a reflective
plane’. This standard refers only to Sound Power values. Chiller manufacturers use the parallelepiped method (rectangular box)
of constant distance D from the surface of the chiller to measure the
Sound Pressure. The use of this shape does not change the calculated
Sound Power for the chiller.
For example to calculate the sound pressure at 10 metres for a chiller
with an ‘A’ weighted overall Sound Power of 107dB(A) re 10 -12 W and
a rectangular surface area at 10 metres distance of 1778 m 2 using the
parallelepiped surface:
Sound power values are not distance-dependant
The basic method described by the standard involves averaging a
number of sound pressure measurements taken all over an imaginary
surface around a chiller in free field conditions.
Sound pressure at a distance of 10 meters = 107 - 10 x log 10
(1778 m 2 ) = 107 - 32.5 = 74.5 dB(A) (reference value 2 x 10 -5 Pa)
Some manufacturers quote sound Pressure levels at a distance of one
metre. When a chiller can be anything up to 10 metres in length this
distance is illogical, as the sound level will change depending upon the
position along the unit. That is near to the compressor will be noisier
than near to the control panel etc, Even a distance of 5 metres is too
close in the case of very large chillers.
Providing that background noises are within prescribed limits all of the
sound measured at the surface must be coming from the chiller and the
sound output (power) can be calculated as follows:
Lw = Lp + 10 x Log 10 (S)
Where:
Lw = Sound power in dB (reference value: 10 -12 W)
Lp = Average value of the sound pressure measurements in dB
(Reference value: 2 × 10 -5 Pa)
S = Measuring area in square meters
DEDUCTION FROM SOUND POWER LEVEL TO OBTAIN
SOUND PRESSURE LEVELS AT VARIOUS DISTANCES FROM A CHILLER
Distance “D” in meters 5 10 25 50
Deduction from sound power -28 -32 -39 -45
D
D
LIQUID COOLER
D
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D