Eliminating
noise with reactive silencers - diffuser type silencers - active silencers
and/or dissipative silencers
The purpose of a duct silencer is to reduce the
noise inside air-handling systems caused by the :
- fan
- passage of air through straight ducts
- impact of air flowing through components such as elbows, branches, mixing boxes etc.
The Dynamic Insertion Loss - DIL - is the difference
between the sound power or intensity levels measured in the same point of the
duct work before and after the insertion of the silencer. The insertion loss
depends on the flow - if its forward or reverse. The flow is forward if air
flows in the same direction as the propagation of sound.
SN
- Self Noise
The Self Noise - SN - is the noise power level in
decibels generated by the silencer when inserted in the air flow. The Self
Noise depends on the direction of the flow - if its forward or reverse.
Absorptive
or Dissipative Silencers
Absorptive or dissipative silencers use sound
absorbing materials to attenuate sound waves.
Dissipative silencers
are widely used in HVAC duct systems. Typical dissipative silencers are
configured in a parallel baffle arrangement
The thickness of acoustical linings or baffles
should be selected with reference to the predominant frequency of the noise.
The incident sound energy is partially transformed to heat by causing motion in
the fibers during its passage through the material. Absorptive silencers
include lined duct attenuators, packaged cylindrical and rectangular
attenuators, acoustic louvers and lined plenum chambers.
Typical DIL -
Dynamic Insertion Losses - with absorptive silencers are indicated in the
table and diagram below
Diameter (inches)
|
Length (inches)
|
Frequency (Hz)
|
||||||
125
|
250
|
500
|
1000
|
2000
|
4000
|
8000
|
||
4
|
24
|
8
|
14
|
26
|
34
|
41
|
45
|
25
|
5
|
24
|
6
|
12
|
22
|
28
|
37
|
38
|
22
|
6
|
24
|
5
|
10
|
18
|
23
|
33
|
30
|
19
|
8
|
24
|
4
|
9
|
17
|
22
|
29
|
25
|
18
|
10
|
36
|
6
|
11
|
21
|
27
|
39
|
25
|
19
|
12
|
36
|
5
|
9
|
18
|
23
|
32
|
20
|
18
|
16
|
36
|
5
|
8
|
11
|
23
|
19
|
17
|
15
|
- (1 in) = (25.4 mm)
Reflective
or Reactive silencers
The primary function of a reactive silencer is to
reflect sound waves back to the source. Energy is dissipated in the extended flow
path resulting from internal reflections and by absorption at the source. The
operation principle of the reactive silencers is a combination of lambda/4- and
Helmholtz-resonators acting as acoustic filters. Reactive silencers have tuned
cavities or membranes and are designed to attenuate low frequency noise from
machines.
The reactive silencer may have excellent low
frequency performance, is non-fibrous and cleanable and has small or negligible
pressure loss. The simplest kind of a reactive muffler is the expansion
chamber. In general reactive silencers are used for fixed speed machinery
producing pure tones. The reactive silencer is suitable for engines requiring
very low exhaust system back pressures for a maximum engine performance.
Reactive silencers are rarely used in HVAC systems.
Diffuser
or Depressive Silencers
Diffuser type silencers have perforated pepper pots
to slow down flow velocity and prevent the generation of low frequency noise
and are mainly used for applications involving nozzles, control valves, jet
engines etc.
The total pressure drop is divided in several stages
across the nozzle, the valve and the diffuser. This allows a better pressure
ratio between upstream and downstream and reduces the noise level.
Active
Silencers
Active noise control is sound field modification,
particularly sound field cancellation, by electro-acoustical means. Active
silencers use microphones and electronics to determine and attenuate noise.
In its simplest form, a control system drives a
speaker to produce a sound field that is an exact mirror-image the offending
sound (the "disturbance"). The speaker thus "cancels" the
disturbance, and the net result is no sound at all. Such silencers can be
effective at low frequencies under 300 Hz.
Active noise control
is best suited for applications with relatively steady noise fields - like
fans, engines or similar. Active silencers are not suitable for broadband noise
reduction
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