Designing Environments for Sound Control
Traffic, door slams, vacuums, toilet flushes, TV’s – these are just some of the everyday noises that can affect your comfort.
Acoustical comfort, created through effective sound control, should be considered in all buildings. Many practical and economical solutions to sound-related problems are currently available to architects, engineers, contractors and building, and home owners.
Most noise control situations can be managed whether it’s from airborne sounds – sound that is directly transmitted from a source into the air like outside traffic, music or voices,- or structureborne sound – sound that travels through solid materials like footsteps, door slams, or plumbing vibrations.
There are four goals to providing a superior acoustic environment:
- Reduce sound reverberation time (echo factor)
- Limit airborne noise (sound transmission from space to space)
- Reduce impact noise
- Minimize background noise
The reduction of sound reverberation time is accomplished by employing sound-absorbing surfaces, such as fabrics, carpeting and acoustical ceilings. The best plan is to configure those spaces to reduce, rather than amplify the sound energy.
When limiting airborne noise, one important consideration is to design high sound transmission class (STC) assemblies. STC is a laboratory measurement used to study the resistance of a wall, ceiling, or floor to the passage of sound. The higher the STC number, the more the sound is deadened. Also, try to enclose or separate spaces with group activities that may create chatter from common areas, using acoustically efficient walls.
To reduce the transmission of impact noise, you can design high-impact insulation class (IIC) assemblies. Isolate finished floors and ceilings by installing resilient underlayments, by using sound-absorptive floor coverings and by using resilient ceiling suspension systems that include sound-absorbing cavity insulation.
Design your HVAC systems to absorb energy and reduce background noise so airborne noise isn’t transmitted through the ductwork. Mechanical equipment should be isolated using vibration dampening techniques and high sound transmission reduction enclosures.
Creating a quiet environment makes for happier homes and offices.
Stan Gatland is Manager of Building Science Technology for CertainTeed Corporation