||Acoustic Attenuation by Vaporization of Liquid Droplets -- Application to Noise Reduction in Aircraft Powerplants.
|| California Inst of Tech, Pasadena Karman Lab,
||AD-A009 644; AFOSR-TR-75-0511; AF-AFOSR-2068-71
Jet and Gas Turbine Engines. ;
Acoustic attenuation. ;
Water injection. ;
Jet engine noise. ;
Noise reduction. ;
Acoustic emissions. ;
||Research Triangle Park Library/RTP, NC
||"AD-A009 644." "AFOSR-TR-75-0511." "AF-AFOSR-2068-71." "Filmed 6-17-75 NTIS." Microfiche.
||A cloud of small water droplets in saturated air attenuates acoustic disturbances by viscous drag, heat transfer, and vapor exchange with the ambient gas. The mechanisms of these processes are analyzed to show that the viscous and heat transfer phenomena attenuate at frequencies above the reciprocal of the Stokes relaxation time, a frequency of about 10,000 Hz for 1-micron droplets. The processes associated with phase exhange attenuate at much lower frequencies; in fact, the characteristic frequency of this attenuation may be controlled by choice of the liquid mass fraction. The strength of the phase exchange attenuation is, however, proportional to the mass of water vapor in the air, a factor controlled by air temperature.
|Corporate Au Added Ent
||California Institute of Technology.; United States. National Technical Information Service.
|PUB Date Free Form
|OCLC Time Stamp
|OCLC Rec Leader
||02413nam 2200505Ki 45020