the role of acoustics in curtain wall design - cebq
TRANSCRIPT
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The Role of Acoustics in Curtain Wall Design:Strategies to Achieve Desired Performance Criteria
John LoVerde, Principal | VENEKLASEN ASSOCIATES, INC.
April 22, 2015
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• Basics of Acoustics• Ratings in Architectural Acoustics
– Single Number Metrics– Code Requirements
• Acoustical Performance of Curtainwall– Elements that affect noise level– Effect of glazing parameters
• Noise from Curtainwall Systems• Sound Isolation at Vertical Condition• Sound Isolation at Horizontal Condition
Goals
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Acoustics Basics
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What is Sound?
• Sound is short-term pressure fluctuations that propagate through a medium
• In air, it is a pressure wave of fluctuations above and below atmospheric pressure
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• The decibel (dB) is used to measure sound level and is a LOGARITHMIC unit that describes a ratio.
• Sound levels add logarithmically: 93 dB + 93 dB = 96 dB
80 dB + 90 dB = 90 dB
• Subjective reactions vary in the population. These are the rules of thumb regarding change.• A change of around 3 decibels is just noticeable
• A change of around 6 decibels is obvious
• An increase of about 10 decibels is perceived as twice as loud.
Sound Level: Decibels
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Sound Levels of Various Sources
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Sound Levels of Various Sources
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Sound Frequency
Time = 1 sec.
Time = 1 sec.
Am
plit
ude
Am
plit
ude
3 Hz
12 Hz
• Frequency is how quickly the wave oscillates.
• Frequency is related to the pitch of a sound.
• Measured in Hertz (Hz) = cycles per second.
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Sound as a Function of Frequency
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Equal Loudness Contours
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Acoustical Ratings: Single-Number Metrics
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Leq Equivalent LevelThe average noise level over a specified time period (often 1 hour)
CNEL Community Noise Equivalent LevelLdn, DNL Day-Night Noise Level
Both are a noise description of the 24 hour average noise level, taking into account humans’ increased sensitivity to noise in the evening and nighttime.
STC Sound Transmission ClassA single number rating for assessing speech transmission through a structure
OITC Outdoor-Indoor Transmission ClassA single number rating for assessing traffic noise transmission through a structure
Important Ratings in Architectural Acoustics
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Sound Transmission Class
• Test procedure defined in ASTM E90 (laboratory) and E336 (field)
• Noise is generated in source room
• Measure noise levels in receiving room in third-octave bands from 125–4000 Hz
WESTERN ELECTRO-ACOUSTIC LABORATORY (WEAL)
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IIC 55
STC 55
BetterN
ois
e r
ed
uct
ion
or
tran
smis
sio
n lo
ssReference Contours
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STC Example
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14675 1 12 = 27
STC Example
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14675 1 12 = 27
STC 47
STC Example
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Single Number Ratings – STC
Intent: a single number rating to compare isolation of different assemblies.
These single-number ratings correlate in a general way with
subjective impressions of sound transmission for speech, radio,
television, and similar sources of noise in offices and buildings.
Limitations:
• Only appropriate for noise sources with a sound
spectrum similar to the reference contour.
• Does not deal with low frequency noise (<100 Hz)
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Single Number Ratings – OITC
Intent: a single number rating to assess the isolation provided of different assemblies specifically for traffic and aircraft noise.
These ratings provide an evaluation and rank ordering of the
performance of test specimens based on their effectiveness at
controlling the sound of a specific outdoor sound spectrum
Limitations:
• Intended for traffic and therefore assumes a particular traffic spectrum that does not hold for all locations.
• Uses 80 and 100 Hz octave bands which have higher uncertainties in laboratory measurement.
• Limited evidence to show improvement over STC
• A good approximation is STC – 6.
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Exterior Façade Design
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Exterior Façade Design1. Define Exterior Noise Environment
a. Measure b. Model
2. Calculate Interior Noise Level a. Transmission Loss (STC)b. Radiating Areac. Room Absorption
3. Which window?a. Glazing typesb. Characteristicsc. Breakpoints
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Measurements
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Noise Model
• Quick and accurate model generation based on project drawings with 3D terrain data.
• Predict exterior noise levels with changing terrain and barriers.
• Predict exterior noise levels with height up the building façade, above where it is practical to measure.
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What Do We Measure?
Metric Description Purpose
LDN or CNEL
Average Daily Exposure General acceptance.Code/General Plan compliance.
Lmax Typical Short-Duration Noise Event
Sleep disturbance.Intrusiveness.
Spectrum Relative balance of lowand high frequencies
Very important for designing glazing
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Average vs. Maximum Levels
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One Equation To Rule Them All
CASTLSPLSPL outsideinside log10log10
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One Equation To Rule Them All
CASTLSPLSPL outsideinside log10log10
Transmission Loss
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63
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31
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63
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31
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One Equation To Rule Them All
CASTLSPLSPL outsideinside log10log10
Transmission Loss
Radiating Area
Doubling window
area = 3 dB increase
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One Equation To Rule Them All
CASTLSPLSPL outsideinside log10log10
Transmission Loss
Radiating Area
Room Absorption
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Glazing Types
Glass type Typical STC Range
Comments
Single plate 24-29 Not used.
Dual plate 26–35 Standard residential.
Dual, lam over plate 33-38 Typical acoustical product.
Dual, lam over lam 33-38 Increased LF performance.
Single lam 33-42 Not typical because of Title 24.
Triple 40-50 When high isolation required.
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The Problem with Dual-Glazing
39
37
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33
30
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Dual vs. Single Laminated
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½” Lam
STC 37
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Triple Glazed or Storm Window
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The Importance of AirspaceTriple Glazed Assemblies
Dual
4”+
3-4”
2-3”
<2”
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Not Just About the STC!
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Tran
smis
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oss
(d
B)
Third Octave frequency (Hz)
Average STC 37
Brand X
Very poor
around 125 Hz
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Not Just About the STC!
Glazing STC Rating
Resultant Interior Noise Level (CNEL)
Average STC 37 37 45
No lam, 1” airspace 37 49
Lam, 1” airspace 40 46
Lam, 5/8” airspace 40 45
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Effects of Glazing Parameters
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smis
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oss
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Average STC 37
Original
Change to laminated glass
Laminated glass and smaller airspace
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Noise of Curtainwall
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Popping
• Occupant complained for popping or pinging noises from the curtainwall.
• Sound level as high as 50–55 dBA. Vibration can be felt in mullions.
• Top floor, two-story space, very large curtainwall relative to floor area.
• Only occurs during daytime; temperature change suspected.
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Temperature Measurements
High air temperature was 91 deg F.
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Deflection
• Vertical movement of mullion of 0.140” (3.55 mm).
• Horizontal movement of mullion of 0.090” (2.29 mm).
• Aluminum framing shows marks of rubbing during movement.
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Mitigation
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Vertical Noise Isolation at Mullions
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Vertical noise transmission between offices at corner mullion condition
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Gaps at Edge-of-slab Condition
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Mitigation
• Frame horizontal gypsum board closure about 12” below existing.
• Caulk to ceiling and glass.
• Fill cavity with insulation
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Mitigation Results
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No
ise
Re
du
ctio
n (
dB
)
Third octave frequency (Hz)
Before
After
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Mitigation Results
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No
ise
Re
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ctio
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dB
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Third octave frequency (Hz)
Before
After
Smaller improvement above 500
Hz. This region is believed to be
associated with transmission
through the mullions themselves.
Large improvement
below 500 Hz.
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Another Edge-of-Slab (Wood joist building)
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Mitigation
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No
ise
Red
uct
ion
(d
B)
Third octave frequency (Hz)
After
Before
Large improvement at most
frequencies. Smallest
improvement at 1000 Hz which is
mullion transmission.
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Sometimes the Mullion Transmission Is a Problem…
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No
ise
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Third octave frequency (Hz)
Yikes!
After
Before
At one curtainwall, the
transmission was at 1000 Hz was
extreme.
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Mitigation
• Holes drilled in mullion at floor above.
• Acoustical caulk pumped into mullion to fill the mullion for the height of the spandrel.
• About 14–18 inches high.
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No
ise
Red
uct
ion
(d
B)
Third-Octave Band (Hz)
Mullion Mitigation
After
NIC 51
Before
NIC 41
Transmission at 1000 Hz and
higher greatly reduced.
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Horizontal Noise Isolation at Mullions
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How Much Isolation You Need…
30 40 50 60 70
STC Rating
Middle
Low Higher
Luxury
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…Defines What Type of Mullion Detailing You Need
30 40 50 60 70
STC Rating
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…with thought to FLANKING CONSIDERATIONS
• This condition occurs in primarily concrete structure
• Mullions/windows
• Curtain wall connections to slab
• Floor conditions
• Ceiling (slab) conditions
• Interior intersection details
• Penetrations
• Curtain wall intersection at wall
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Bare Mullion
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Wrapped mullion
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Effect of wrapping mullion
STC 44
STC 48
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Trim piece
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Trim Piece
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Effect of Trim Piece
NIC 50, 48, 46
NIC 48, 46
NIC 51, 51
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Trim piece with seals
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Trim piece with seals
NIC 51
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Wide or double mullions
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Wide or double mullions
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20
25
30
35
40
45
50
55
60
65
701
00
12
5
16
0
20
0
25
0
31
5
40
0
50
0
63
0
80
0
10
00
12
50
16
00
20
00
25
00
31
50
40
00
50
00
Wide or double mullions
NIC 51–56
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Double mullions with closure
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Double Mullion with Closure
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Double mullions with closure
30
35
40
45
50
55
60
65
70
75
80
100
125
160
200
250
315
400
500
630
800
1000
1250
1600
2000
2500
3150
4000
5000
NNIC 62, 62, 68
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Effect of Ceiling Flanking
30
35
40
45
50
55
60
65
70
75
80
100
125
160
200
250
315
400
500
630
800
1000
1250
1600
2000
2500
3150
4000
5000
NIC 53
NIC 64
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Summary Chart
Condition Wall
Min STC
Mullion Result
Low
(Office)
STC 40 Exposed STC 35–40
Mid-level
(Hotel)
STC 52 Wrapped or trim
Trim
STC 46–53
Mid-High
(Hotel, School,
Condominium)
STC 58 Widened/double STC 52–56
Luxury
(Condominium)
STC 60+ Widened/double
with closure
STC 60+
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Effects of Mullion Flanking
20.0
30.0
40.0
50.0
60.0
70.0
80.0100
125
160
200
250
315
400
500
630
800
1000
1250
1600
2000
2500
3150
4000
5000
STC 44
STC 48
STC 49
STC 53STC 64
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Commercial Products
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Summary• Single Number Ratings
– Noise levels typically measured as DNL or CNEL– Curtainwalls specified in terms of STC and OITC – Single numbers do not tell the whole story
• Acoustical Performance of Curtainwall– Exterior noise level, glazing area, acoustical room absorption will all affect the requirements
for the glazing.– No single number can convey all of the effects – do not design to a rating.– Type of glass, thickness of glass and airspace have specific effects on the performance at
various frequencies.
• Noise from Curtainwall Systems– Curtainwalls can generate noise due to friction or binding under thermal expansion.
• Sound Isolation at Vertical Condition– Edge of slab requires a solid acoustical block of some sort– Sound transmission through the curtainwall itself is sometimes a problem.
• Sound Isolation at Horizontal Condition– Sound transmission through mullions requires careful consideration.– The level of protection is determined by the required performance.
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Thanks for your attention!