Machines Sound Level Reduction
Reference data and engineering information about machines sound level reduction for acoustics applications.
machinessoundlevelreduction
Overview
Engineering reference data for Machines Sound Level Reduction in acoustics.
Key Formulas
Speed of Sound
Speed of sound in an ideal gas.
Sound Level
Decibel level.
Wavelength
Wavelength = speed / frequency.
Variables
| Symbol | Description | Unit |
|---|---|---|
| Speed of sound | m/s | |
| Sound level | dB | |
| Wavelength | m | |
| Frequency | Hz |
Noise Reduction by Enclosure Type
The following table summarizes typical sound pressure level reductions achievable with different enclosure and isolation strategies:
5 rows
Enclosure Type | Reduction (dBA) |
|---|---|
| No enclosure or barrier, machine alone | 0 |
| Machine on vibration isolators | ≈ 2 |
| Machine with barrier | ≈ 5 |
| Machine in a rigid & sealed enclosure | ≈ 20 - 25 |
| Machine in a rigid & sealed enclosure with sound absorption lining on inside walls - machine on vibration mounts | ≈ 40 - 45 |
Source: engineeringtoolbox.com
Noise Reduction Due to Distance
The Inverse Square Law states that for a point source radiating sound in a free field, the sound pressure level decreases by approximately 6 dB for each doubling of distance from the source.
This relationship is expressed by the formula:
Where:
- is the initial sound pressure level at distance
- is the sound pressure level at distance
- and are the distances from the sound source
Practical Applications
- Enclosures (Types 4 & 5): The most effective solutions. A rigid, sealed enclosure provides the base attenuation (20-25 dBA). Adding internal absorption lining and vibration isolation mounts can significantly increase performance to the 40-45 dBA range.
- Barriers (Type 3): Provide moderate noise reduction (~5 dBA) and are often simpler to implement than full enclosures.
- Vibration Isolation (Type 2): Primarily reduces structure-borne noise transmitted through the building structure, offering a small but important reduction.
- Combined Strategies: For maximum effect, combine distance attenuation with physical barriers and enclosures.