|
Architectural Acoustics
Architectural acoustics deal with sound
control and acoustical design in large
spaces including auditoriums, arenas,
theaters, lobby areas, swimming pools, and
multipurpose rooms. Typical problems include
excessive reverberation (echo), which causes
poor speech intelligibility, and excessive
noise during events. We try to match
acoustical design and acoustical engineering
with your design constraints and budget to
lower the reverberation time (RT60) for
increased clarity of speech and music. To
help support our work with architectural
acoustics and acoustic designs we have
downloadable CAD drawing as well as 3 part
CSI Architectural specifications available
on our website for over 250 acoustical
products, including acoustical wall panels
and acoustical wall coverings.
 |
OEM Materials
There are many other applications where
flexible polyurethane foam is used on a
daily basis to control sound and reduce
noise levels. Acoustical Solutions offers a
variety of open cell and closed cell high
density polyurethane foam options. Various
thicknesses are available on the
polyurethane foam ranging from ¼” up to 12”.
Additionally, various facings are available
on the flexible polyurethane foam (both open
cell and closed cell) such as Mylar,
urethane, and tedular. For better sound
reduction, a mass loaded vinyl layer can be
added in between the high density
polyurethane foam layers. Acoustical
Solutions can offer competitive bids on
existing specs or we can provide a number of
design solutions to help make your product
run quieter in its end environment.
 |
Noise Control For Architects, Engineers,
Consultants and Contracting Firms
Let ArtUSA Noise Control Products be your
partner on your next noise control
application. You can rely on ArtUSA Noise
Control Products to provide you with the
in-depth technical expertise necessary to
select the most appropriate products and
designs for your application. We'll work
with you as the project unfolds, in the
early stages of planning, specification
writing and budget costing to ensure that
your and the Owner's requirements are met.
With ArtUSA Noise Control Products as your
design partner, you can be sure of providing
your client with the most appropriate plans
and specifications for a wide variety of
noise control, soundproofing and acoustical
solutions. |
|
Noise Control in a nutshell (for existing
buildings)
Some spaces are not primarily designed with
an acoustical function, but acoustics
impedes other functions: these spaces are
just too loud. The acoustical requirement
for noisy spaces, such as cafeterias, work
spaces, gymnasiums, and pools is
straightforward: make them less noisy. There
are two ways to accomplish this goal:
1. isolate the space from noise sources;
2. reduce reverberation.
It is always better, if possible, to control
noise by removing a noise source. In the
case of a cafeteria or gymnasium, however,
the largest source of noise, people in the
space, can’t be removed. However, there may
be other sources of noise that can be
removed to make these spaces quieter, such
as air-conditioning units and – very common
– drink vending machines with loud, built-in
refrigerators.
Changing room surfaces to reduce
reverberation is often the only practical
solution for quieting a noisy space. The
basic problem is to determine how to get in
as much sound-absorbing material as possible
at a reasonable cost while preserving
aesthetics.
The Secret of Architectural Acoustics
Revealed
Background Noise
Have you ever noticed that your radio seems
awfully loud when you stop your car after
listening on the highway? Or have you ever
felt that palpable relief when the air
conditioner shuts off? We don't notice
background noise---but background noise
determines what we can hear and understand
in the foreground.
Some times we don't want to hear everything.
Imagine if you could hear and understand
every conversation at your office. It would
be terribly distracting. But when we do want
to hear every little thing---at a religious
service, in an important meeting, at a play,
or at a concert---background noise is
critical.
During a lecture or sermon, any audible
sound not made by the speaker is noise;
during a performance, any audible sound
not created by a performer is noise.
There are, of course, many aspects to
excellent acoustical design. However, in any
space intended for listening, strict control
of noise is fundamental. I call these spaces
"critical-listening space."
Sources of noise include traffic, airplanes,
machinery, plumbing, lights, and people in
other spaces. In a space for listening, the
worst offender is usually the heating,
ventilating, and air-conditioning system
(HVAC).
The (undamaged) human ear is so sensitive
that we can detect sounds that displace the
eardrum by roughly the diameter of a
hydrogen molecule.1
This means that background noise
determines the softest sound that a
performer or speaker can effectively utilize.
Even in spaces that most people would
consider quiet, the background noise level
can be twenty to thirty decibels above the
threshold of hearing. You don't notice this,
but the performer has lost twenty to thirty
decibels of dynamic range! |
|
Speech Intelligibility
When a theatre is truly quiet, an actor can
use his entire dynamic range, from a
shout to a whisper, and still be clearly
understood. Since the quiet moments in a
drama are often the most electrifying,
strict control of background noise is
essential.
The ancient Greek theatres are known for
their almost magical acoustics for speech.
One can hear a drachma drop from the
farthest seats in the theatre at Epidaurus.
How can this be so? The answer is that no
audible sound covers up the sound of the
coin striking stone--and so it is heard.
Music
Similarly for music, a silent background
allows a performer to exploit his entire
dynamic range. The loud climaxes of a
musical performance can be wonderfully
stirring, but the quiet moments set off
these climactic moments and give them their
power. Without the quiet moments, music is
all on the same dull level. Furthermore,
some of the most intense, magical moments in
music are the softest. These moments are
only possible when the hall in which they
occur is truly quiet.
Recording engineers understand this. They
commonly turn off all mechanical systems and
most lights while recording.
Speech and Music in the Same Space
Many spaces are used for both speech and
music, the best example being church
sanctuaries. For such mixed use, a silent
background is particularly important. This
is because reverberation (the persistence of
sound in space) is necessary for music.
Without reverberation, music sounds flat and
dull. But reverberation can interfere with
speech intelligibility by prolonging the
sounds of speech, smearing them in time.
A good speaker corrects for this effect by
speaking slowly and clearly, working with
reverberation to enhance the sound of his
voice. However, reverberation amplifies
background noise, creating a double
difficulty for speech. Contrary to common
belief, speech can work quite well in a
properly designed reverberant space, but
only if background noise is minimized.
Audience Noise
Audience noise is beyond the direct control
of the architect or acoustical consultant.
However, research shows that audience
members are significantly quieter when
background noise levels are very low. In the
City of Birmingham Symphony Hall,
Birmingham, England---a hall with
exceptionally low background
noise---audience members are so attentive
during quiet music passages that they hold
their breath to listen.
Examples of Spaces with Low Background Noise
-
Meyerson Symphony Hall, Dallas
-
Domain Forget, Charlevoix Quebec
-
New Jersey Performing Arts Center,
Newark, NJ
-
Clemens Theatre, Christopher Dock
Mennonite School, Lansdale, PA
Gymnasiums, Restaurants, Cafeterias
Listening may not be the primary function in
your space. However, people are always
hearing, and the acoustics of these spaces
can almost always be improved by lowering
background noise (as well as other
measures). I was recently in a gymnasium,
for instance, with horrible screeching noise
from the lights. The poor gym teacher who
has to work in that space must have a
perpetual headache.
The Common Condition
In the vast majority of places where I
listen---churches, theatres, lecture halls,
recital halls, concert halls---background
noise imposes a haze in front of the sound.
This noise itself goes unnoticed by most
people. Instead, they notice that their
experience is diminished: the tone color of
the violins is dull; the sound lacks
clarity; they can't quite understand the
words.
The usual response to the ubiquitous
blanketing of desired sound by background
noise is to turn up the amplification.
Amplification often adds fifteen to twenty
decibels above the background noise to the
level of the speaker. Wouldn't it be better
to reveal the speaker by removing twenty to
thirty decibels of background noise?
Furthermore, lower background noise makes
the job of the sound system vastly easier.
See and Hear for Yourself
The effect of background noise can be
compared to looking through a dirty window;
one doesn't notice the dirt on the window,
one simply can't make out the view. Clean
the window for a striking improvement in
clarity. And so it is when background noise
is controlled. You can hear this for your
self by the following simple experiment. You
need two other people to help.
-
Two people stand on opposite ends of the
room.
-
The third person is on hand to manage
the noisemakers: fans, ventilation
systems, lights, dimmer racks,
air-conditioning, etc.
-
Turn on all noisemakers. In actual
practice not all these devices may be on
at the same time, but for the sake of
demonstration turn them on to create the
greatest contrast.
-
Converse with the person across the
room. Note the effort necessary to make
yourself understood. Note the effort
necessary to understand.
-
Turn off all the noisemakers at once.
-
Listen.
-
Proceed with your conversation.
-
Note the change in effort necessary to
understand and be understood.
Even in rooms that have other acoustical
difficulties, the improvement should be
clear and palpable.
What Is To Be Done?
When designing a new critical-listening
space, consider the location of noise
producing machinery such as air-handlers,
and the design of a silent mechanical
ventilation system from the very beginning.
Few people realize that it is possible to
supply cool air to a room without creating
any noise. It is. However, since this is not
the usual practice, such a silent system
must be considered from the beginning of
design.
An architect once called me to help with the
design of a high school auditorium. I
discovered that it was too late in the
design to move two large air-handlers from
their location on the roof of the
auditorium. They might just as well have
been put on stage! I did my best to help
out, but nothing I could recommend for the
inside of the room will cancel out the
deleterious effect of those two huge
noisemakers.
In the case of historic renovation, noise
control may be the only option available for
improving the acoustics of a space. In some
cases, merely quieting a noisy mechanical
ventilation system will affect a drastic
improvement in the acoustics.
Conversely, many a perfectly lovely space
has been ruined acoustically by loud new
ventilation systems. When planning the
renovation of a worship or performance
space, make noise control the first
consideration.
Noise control is fundamentally important to
the success of any building for listening.
It can make the difference between excellent
sound and the usual mediocrity. This is
especially true on a tight budget. Better to
save money by leaving out the seats! After
all, these buildings are often meant to last
for more than a hundred years.
Conclusion
Since the level of background noise
determines what we can hear in a space, it
determines the level of acoustical
excellence. This is truly the secret of
great acoustics. Awareness of this secret in
the early stages of design brings excellent
acoustics for your new critical-listening
space within your grasp. (by Orpheus
Acoustics) |
If you want the BEST, you have
come to the right place! We carry everything for
Noise Control and Soundproofing from: Sound Booths,
Acoustic Foams, Sound Blocking Vinyl Barriers, and
other High Performance Noise Control Materials!
ArtUSA Acoustics is your one-stop-shop all of your
acoustic products needs. Have any questions? You are
always welcome to contact our knowledgeable and
friendly staff. Discover for yourself why ArtUSA
Acoustics is the most trusted name in the industry.
ArtUSA Noise Control Products Inc. is a company with
25 years of experience and over 500 specialty
soundproofing, noise control, vibration control and
acoustical products. We have knowledgeable acoustics
and soundproofing professionals ready to explain our
cost effective solutions. With hundreds of products
in stock, easy to use, fast shipment..
ArtUSA Noise Control
Products Inc. offers a complete line of
soundproofing and noise control products for use in
many applications. Our soundproofing products
provide noise control for broadcast and recording
studios, classrooms and home theaters. We provide
excellent information on sound reduction for
architectural acoustics. Our soundproofing products
are available for industrial noise control and
residential sound reduction too. Soundproofing and
acoustical treatments can be applied almost
everywhere. ArtUSA Noise Control, Inc. offers the
widest product selection in the soundproofing
industry with solutions for every type of noise
problem. Our expert staff is available to help meet
your needs, offering excellent advice on noise
control product selection and installation.
Noise Control Solutions with
Industrial/Environmental Acoustic Enclosure Systems
for Fans, Blowers, Pumps, Generator Sets, Test
Chambers, Grinders, Dryers, Processes, Compressors,
Saws, Quench Operations, Conveyors, Chillers,
Shakers, Vibratory Feeders, Condensors, Process
Equipment, Presses, Water Jet Cutters, Granulators,
Shredders, Parts Washers, Swedgers, Milling
Machines. The information provided in this part of
our website is presented in an effort to help you in
understanding acoustics (the science of sound) and
how it affects you in everyday life. Learning the
basics of acoustics will help you select products
and methods to better solve your sound and noise
problems. Certain words and phrases throughout the
Acoustical Solutions website are highlighted so that
you may go directly to the definition in the
university or
glossary and terms page
to help gain a better understanding of the product
information. As always, you may contact one of our
sales representatives by phone at
1-888-454-6975 or by email at
franka@noisecontrolproducts.com
to answer your questions and help you build a
solution that best fits your needs.
RFQ's and sales request
sales@noisecontrolproducts.com
Send Drawings and Photos
engineering@noisecontrolproducts.com
TOP 10 NOISE CONTROL TECHNIQUES
The
following are 10 simple noise control techniques
that have wide application across the whole of
industry. In many
cases, they will produce substantial noise
reductions quickly and cheaply - with little or no
effect on normal operation
or
use.
1
DAMPING
Typical applications
Chutes, hoppers, machine guards, panels, conveyors,
tanks . . . . .
Technique
There are 2 basic techniques:-
—
unconstrained layer damping where a layer of
bitumastic (or similar) high damping material is
stuck to the surface
—
constrained layer damping where a laminate is
constructed
Constrained layer damping is more rugged and
generally more effective. Either remanufacture
steel (or aluminium) guards, panels or other
components from commercially
available sound deadened steel or buy self adhesive
steel sheet. The latter can simply be
stuck on to existing components (inside or outside)
covering about 80% of the flat surface
area to give a 5 - 25 dB reduction in the noise
radiated (use a thickness that is 40% to 100%
of
the thickness of the panel to be treated).
Limitations
:
the efficiency falls off for thicker sheets. Above
about 3mm sheet
thickness it becomes increasingly difficult to
achieve a substantial
noise reduction.
2
FAN INSTALLATIONS
Typical applications
Axial flow or centrifugal fans.
Technique
Maximum fan efficiency coincides precisely with
minimum noise. Any fan installation feature
that tends to reduce fan efficiency is therefore
likely to increase noise. Two of the most
common examples are bends close to the fan (intake
side in particular) and dampers (close to
the
fan intake or exhaust). Ideally, for maximum fan
efficiency and minimum noise, make sure there is at
least 2 - 3 duct
diameters of straight duct between any feature that
may disturb the flow and the fan itself.
Noise reductions of 3 - 12 dB are often possible.
3
DUCTWORK
Typical applications
Extraction, ventilation, cooling, openings in walls
and enclosures.
Technique
Instead of fitting silencers, it is often possible
to achieve a 10 - 20 dB reduction in airborne
noise from a duct or opening by lining the last bend
in the ductwork with acoustic absorbent
(foam or rockwool / fibreglass). Alternatively,
construct a simple absorbent lined right-angled
bend to fit on the opening. Ideally, either side of
the bend should be lined along a length
equivalent to twice the duct diameter. Where flow
velocities are high (> 3m/s), consider using
cloth faced absorbent. Duct vibration can usually be
treated by damping (as above).
4
FAN SPEED
Typical applications
Axial or centrifugal flow fans.
Technique
Fan
noise is roughly proportional to the 5th power of
fan speed. So in many cases it is
possible to achieve a large noise reduction from a
small drop in fan speed by changing
control systems or pulley sizes and re-setting
dampers. The following table provides a guide
to
the trade-off that can be expected.
5
PNEUMATIC EXHAUSTS
Note :
a
well designed silencer will not increase system back
pressure.
Almost invariably it is possible to reduce pneumatic
exhaust noise permanently by 10 - 30 dB
by
fitting effective silencers. The following are the
practical points that can make the
difference between success and failure:-
—
back pressure
:
fit a larger coupling and silencer
—
clogging
:
fit a straight-through silencer that cannot clog
(and has no
back pressure)
—
multiple exhausts
:
manifold them into a single, larger diameter pipe
fitted with the rear silencer from virtually any
make of
car
(from your local tyre and exhaust fitter). Typically
25
dB reduction.
6
PNEUMATIC NOZZLES
Typical applications
Cooling, drying, blowing . . . . .
Technique
In
most cases, it is possible to replace existing
nozzles (usually simple copper pipe outlets)
for
quiet, high efficiency units. These not only reduce
noise levels by up to 10 dB, but also
use
less compressed air. The types of nozzle to look out
for are entraining units (schematic
below) from various manufacturers and in a variety
of sizes.
7
VIBRATION ISOLATION PADS
Typical applications
Machine feet, pumps, mezzanine installations . . . .
.
Technique
Mounting motors, pumps, gearboxes and other items of
plant on rubber bonded cork (or
similar) pads can be a very effective way of
reducing transmission of vibration and therefore
noise radiated by the rest of the structure. This is
particularly the case where vibrating units
are
bolted to steel supports or floors. However, a
common error with the use of these pads is
for
the bolt to ”short-circuit” the pad, resulting in no
isolation. Additional pads must be fitted
under the bolt heads as shown below.
There are many types of off-the-shelf anti-vibration
mounts available, for instance
rubber/neoprene or spring types. The type of
isolator that is most appropriate will depend on,
among other factors, the mass of the plant and the
frequency of vibration to be isolated. Any
supplier of anti-vibration mounts will be able to
advise you on this.
8
EXISTING MACHINE GUARDS
Technique
The
existing guards on many machines can often be
improved to provide a significant noise
reduction. The two principles involved, which must
be used in combination, are:-
(i)
Minimise gaps
Reducing by half the “gap” open area in a set of
guards can reduce the noise by 3
dB.
If you can reduce the openings (flexible seals,
additional close fitting panels etc)
by
90%, then a 10 dB noise reduction is possible.
(ii)
Acoustic absorbent
Lining a significant proportion of the inside of the
guards with acoustic absorbent
(foam, rockwool / fibreglass) will reduce the noise
“trapped” by the guards.
Consequently, less noise will escape through any
gaps. Failure to line the inside of
the
guards could result in an increase in noise at the
operator’s position if the gaps
have been minimised as in (i) above.
In
most cases, both sets of modifications can be tested
in mock-up form using cardboard (and
wide tape) to extend the guarding and temporarily
fitting areas of acoustic foam inside. Not
only does this process help with the practical
aspects (access, visibility etc), but it usually
also
provides a very good indication of the noise
reduction that can be expected. Very “Blue
Peter” but very effective. Guard vibration radiated
as noise can also be treated via damping
(as
above).
9
CHAIN AND TIMING BELT DRIVES
Technique
Noisy chain drives can often be replaced directly
with quieter timing belts. Within the range of
timing belts available, there are also quiet designs
that use different tooth profiles to minimise
noise. There is also a very new design of belt for
applications where noise is critical which
uses a chevron tooth pattern to provide very quiet
running. Noise reductions in the range of 6
-
20 dB are often possible using this approach.
10
ELECTRIC MOTORS
Technique
Most companies have large numbers of electric motors
used on anything from fans to pumps
to
machine tools. However, it is not very common
knowledge that general duty motors are
available (at little or no cost premium) that are up
to 10 dB(A) or more quieter than typical
units as direct replacements. The best approach is
to feed these motors into the system over
a
period of time so that all replacement motors are
quiet motors. |
