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Sound Absorption and Sound
Insulation
Transmitted energy
Reflected energy
Converted
energy
Incident energy
Sound absorption
Absorption coefficient
a = converted + transmitted energy
incident energy
Sabine
Large room volume long reverberation
High absorption factor short reverberation
Large absorption area short reverberation
a, S
V
Absorption - Reverberation
S
VT
a16.0
T seconds
Time
Loudness
Reverberation time
S
V
Reverberation chamber
Measurement of absorption factor
)11
(16.0
withoutT
withT
VA
A=equivalent absorption area, m2
V= room volume, m3
absorption factor
Α = A/S
The room method EN ISO 354
Thickness: 20 mm
Panel size: 1192x592 mm
Frequency Curve 1
50 0.12
63 0.13
80 0.17
100 0.34
125 0.34
160 0.59
200 0.75
250 0.82
315 0.87
400 0.94
500 1.00
630 0.92
800 0.86
1000 0.82
1250 0.94
1600 0.93
2000 0.97
2500 0.99
3150 0.93
4000 0.91
5000 0.88
Ecophon ceiling Akutex T Gedina edge A
Thickness: 20 mm
Panel size: 1192x592 mm
Frequency Curve 1 63 0.15
125 0.40
250 0.80
500 0.95
1000 0.85
2000 0.95
4000 0.90
a p,
Ecophon ceiling Akutex T Gedina edge A
125 250 500 1000 2000 4000
Absorption class A
Absorption class B
Absorption class C
Absorption class D
Absorption class E
Unclassified
Frequency, Hz
1,0
0,8
0,6
0,4
0,2
0
Classification of sound absorbers EN-ISO 11654
p Practical sound absorption coefficient a
Practical absorption coefficient and
classification
0
0,2
0,4
0,6
0,8
1
1,2
125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz
Pra
cti
ca
l so
un
d a
bso
rpti
on
co
eff
icie
nt
a w = 0,9, class A
Weighted
absorption
coefficient, a w
a w = 0,7, class C
D 1-4 dB
C 4-7 dB
B 7-10 dB
A 10-20 dB
The reflected sound
is reduced by At absorption
class
Reflected sound
)1log(10 aL
1. Porous absorbers
(mineral wool products, porous fibreboard products,
foam plastic, fabric, felt etc)
2. Resonance absorbers
a) Cavity absorbers (Helmholtz absorbers)
b) Membrane absorbers
Absorbers
Absorp
tion c
oeff
icie
nt
1-0
0
Frequency (Hz)
o.d.s. t
- Surface (layer)
- Material
- Thickness
- Overall depth of system
(o.d.s.)
Porous absorbers - Important parameters
Absorption coefficient
0
0,2
0,4
0,6
0,8
1
1,2
125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz
Pra
cti
ca
l so
un
d a
bso
rpti
on
co
eff
icie
nt
Thickness = 40 mm (o.d.s. = 40 mm) Thickness = 20 mm (o.d.s. = 20 mm)
- various thickness small overall depth of system
Absorption coefficient
0
0,2
0,4
0,6
0,8
1
1,2
125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz
Pra
cti
ca
l so
un
d a
bso
rpti
on
co
eff
icie
nt
o.d.s. = 200 mm (t = 20 mm) o.d.s. = 100 mm (t = 20 mm) o.d.s. = 50 mm (t = 20 mm)
- various overall depth of system
Master A, o.d.s. 200 mm
0
0,2
0,4
0,6
0,8
1
1,2
125 Hz 250 Hz 500 Hz 1000 Hz 2000 Hz 4000 Hz
Pra
cti
cal
so
un
d a
bso
rpti
on
co
eff
icie
nt
alpha
beta
gamma
radius (mm) perforation (%)
0.1 1
0.5 2
1.5 3
Ab
so
rpti
on
co
eff
icie
nt
Frequency
fu
fu 4000 Hz
Surface layer - upper frequency limit
FHU - Acoustic specification
S
Aa
Equivalent absorption area (ISO 354)
A (m2)
Absorption factor (ISO 354)
S ?
Absorbent ceiling FHU – free hanging unit
Master Solo S (1200x1200), single unit for various
o.d.s.
125 250 500 1000 2000 4000 0
0.5
1
1.5
2
2.5
3
Frequency, Hz
Eq
uiv
ale
nt
abso
rptio
n a
rea
, m
2
100 mm
200 mm
400 mm
600 mm
800 mm
1000 mm
d d
, d
, d
, d
Master Solo S, array with 9 panels 1200 x 1200,
- 600 mm o.d.s., for various distances d
125 250 500 1000 2000 4000 0
0.5
1
1.5
2
2.5
3
Frequency, Hz
Eq
uiv
ale
nt
abso
rptio
n a
rea
, m
2
100 mm
300 mm
500 mm
single unit
Calculation of reverberation time
S1
S2
S3
S4, S5
S6
A=α1∙S1+ α2∙S2+ α3∙S3+ α4∙S4+ α5∙S5+ α6∙S6
Sabine's formula:
T = 0.16·V/A
V = volume, m3
A = equivalent absorption area, m2
Sabine's formula:
T = 0.16·V/A
V = volume, m3
A = equivalent absorption area, m2
S1
S2
S3
S4 S5
S6
A=α1∙S1+ α2∙S2+ α3∙S3+ α4∙S4+ α5∙S5+ α6∙S6 + 6∙AFHU
Calculation of reverberation time: FHU added
A=6∙AFHU
Calculation of sound pressure level decrease with FHU
)log(100
0
A
AAL
S1
S2
S3
S4 S5
S6
AFHU
A0 =α1∙S1+ α2∙S2+ α3∙S3+ α4∙S4+ α5∙S5+ α6∙S6
Different sound sources demands different sound insulation
Sound sources spectral and
temporal characteristics
Speech
Footstep
Music
Installation
Traffic
X X X X
eiiih!
Sound insulation
Lr: Sound pressure level receiving room
A: Equivalent absorption area
Impact sound transmission
Ln = Lr + 10 log (A/10) (dB)
High Ln high impact sound
transmission
Low Ln low impact sound
transmission
Impact sound
Tapping
machine
Lr A
L’n denotes a field value
- definition and measurement procedures
Tapping machine
Ls: Sound pressure level sending room
Lr: Sound pressure level receiving room
A: Equivalent absorption area
S: Area separating wall
Sound reduction
R = Ls- Lr- 10 log(A/S) (dB)
High R High sound insulation
Low R Low sound insulation
Ls
Lr
A S
R’ denotes a field value
Airborne sound, definition and measurement procedures
Airborne sound insulation
0
10
20
30
40
50
60
70
100
160
250
400
630
1000
1600
2500
frequency (Hz)
so
un
d r
ed
ucti
on
(d
B)
concrete
leight-weight wall
mineral wool
Mass law
6 dB/octave
Doubled weight leads to 6 dB
increased insulation
Sound transmission paths
Room-to-room airborne sound insulation
of a suspended ceiling with a plenum above
EN ISO 10848-2: Dn,f,w – weighted normalized flanking level difference
Supersedes ISO 140-9:1985 (Dn,c,w)
Definition and measurement procedure
Ls Lr
A
Dn,f = Ls- Lr- 10 log(A/A0) A0=10 m2 (dB)
Ecophon Combison™
Combison
Uno A
Combison
Uno D
Combison
Duo A
Combison
Duo E
Dn,f,w 40 dB
Dn,f,w 40 dB
Dn,f,w 42 dB
Dn,f,w 41 dB
Sound insulation plus sound absorption
The effect of additional absorbers
about 3 dB
about 6 dB
about 6-12 dB
Ecophon Combison
Combison XR 600 mm on each side of the partition
Combison XR all over the suspended ceiling Combison Barrier over the partition
Example: Increase in sound reduction in laboratory
How does the location of the absorbers
influence sound insulation?
R (dB)
100 3150
R (dB)
What happens when different panels are mixed
in a ceiling?
100 3150
The effect of barriers
Dn,f (dB)
100 3150
Influence of ducts and gaps 15% openings in the barrier showed a reduction
of sound insulation by 1 dB for a Dn,f,w = 40 dB
R’ (dB)
100 3150
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