HVAC Systems and Applications! - Resources, Tools and Basic Information for Engineering and Design.
Noise can be eliminated with reactive silencers, diffuser type silencers, active silencers and/or dissipative silencers
Sponsored Links
The primary function of the reactive silencer is to reflect sound waves toward the source. Energy is dissipated in the extended flow path resulting from internal reflections and by absorption at the source.
The operation principle of the reactive silencers is a combination of lambda/4- and Helmholtz-resonators acting as acoustic filters. Reactive silencers have tuned cavities or membranes and are designed to attenuate low frequency noise from machines.
The reactive silencer may have excellent low frequency performance, is non-fibrous and cleanable and has small or negligible pressure loss. The simplest kind of reactive muffler is the expansion chamber.
In general reactive silencers are used for fixed speed machinery producing pure tones. The reactive silencer is suitable for engines who require very low exhaust system back pressures for maximum engine performance.
Diffuser type silencers have perforated pepper pots to slow down flow velocity and are mainly used for nozzles, control valves, jet engines etc.
The total pressure drop is divided in several stages across the nozzle, valve and the diffuser. This allows a better pressure ratio between upstream and downstream and reduces the noise level.
Active noise control is sound field modification, particularly sound field cancellation, by electro-acoustical means. Active silencers use microphones and electronics to determine and attenuate noise.
In its simplest form, a control system drives a speaker to produce a sound field that is an exact mirror-image the offending sound (the "disturbance"). The speaker thus "cancels" the disturbance, and the net result is no sound at all.
Active noise control is best suited for applications with relatively steady noise fields - like fans, engines or similar.
Absorptive or dissipative silencers use sound absorbing materials to attenuate the sound waves.
Dissipative silencers are widely used in HVAC duct systems. Typical dissipative silencers are configured in a parallel baffle arrangement.
The thickness of acoustical linings or baffles should be selected based on the predominant frequency of the noise. The incident sound energy is partially transformed to heat by causing motion in the fibers during its passage through the material. Absorptive silencers include lined duct attenuators, packaged cylindrical and rectangular attenuators, acoustic louvers and lined plenum chambers.
The Dynamic Insertion Loss - DIL - is the difference between two sound power levels or intensity before and after the silencer have been inserted.
The Self Noise - SN - is the sound power level in decibels generated by the silencer by a given air flow.
Sponsored Links
Difficult to find your favorite ToolBox page? Add a link to the page in your own personal Shortlist!
Translate this page to
Spanish
French
German
Italian
Dutch
Norwegian
© The HVAC ToolBox
The content in The HVAC ToolBox is copyrighted but can be used with NO WARRANTY or LIABILITY. Important information should always be double checked with alternative sources. All applicable national and local regulations and practices concerning this aspects must be strictly followed and adhered to.
We appreciate any comments and tips on how to make The HVAC ToolBox a better information source. Please contact us by email if You find any faults, inaccurate, or otherwise unacceptable information.
5 12 1
View Engineering, Design and Construction news in the absolute FREE Automatic WebSite Viewer. Engineering Breaking News!
