Acoustical Noise Control 914.4.4 Attenuation of Noise in Ducts
Metal ducts with no linings attenuate fan noise to a
certain extent. As the duct branches, part of the fan noise
energy is guided into each branch. Duct wall vibration
absorbs some of the energy, and any discontinuity (such
as a bend) reflects some energy back toward the source.
A very large discontinuity, such as the outlet of the duct
flush with the wall, reflects substantial energy back
toward the source. This results in attenuation of noise
entering the room, as shown in Fig. 4-45. Unlike many
other systems in acoustics this is one attenuation that is
greater at low frequencies than at the highs.Lining a duct increases attenuation primarily in the
higher audio frequency range. Fig. 4-46 shows
measured duct attenuation with 1 inch duct lining on all
four sides. The dimensions shown are for the free area
inside the duct. This wall effect attenuation is greatestFigure 4-43. Typical paths by which HVAC noise can reach sound-sensitive rooms.Returnsupply"B"HVAC unit1 5 3 6 8 91011122
47"A"Figure 4-44. Noise from HVAC equipment may be
reduced by isolation mounts, or it may actually be ampli-
fied. (After ASHRAE, Reference 18.)
126
3
0
2
3
6
9Transmitted force–dB1/4 1/3 1/2 1 2 3 4 5 6
Disturbing frequency fd
Natural frequency of isolator fnNo isolationForce
amplifiedIsolationFigure 4-45. The effect of duct cross-sectional area on the
attenuation of HVAC noise. (After ASHRAE, Reference 18.)20151050
63 125 250 500 1k 2kReduction loss–dBOctave band center frequency–HzDuct cross-sectional area25 in
2100 in
2
400 in
1600 in 2
24k