Open AccessEffect of Heat on Space-Time Correlations in Jets
Author(s) -
James Bridges
Publication year - 2006
Publication title -
nasa technical reports server (nasa)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2006-2534
Subject(s) - mach number , jet (fluid) , turbulence , physics , kinetic energy , mechanics , space (punctuation) , space time , core (optical fiber) , turbulence kinetic energy , noise (video) , statistical physics , computational physics , classical mechanics , optics , computer science , engineering , chemical engineering , operating system , artificial intelligence , image (mathematics)
Measurements of space-time correlations of velocity, acquired in jets from acoustic Mach number 0.5 to 1.5 and static temperature ratios up to 2.7 are presented and analyzed. Previous reports of these experiments concentrated on the experimental technique and on validating the data. In the present paper the dataset is analyzed to address the question of how space-time correlations of velocity are different in cold and hot jets. The analysis shows that turbulent kinetic energy intensities, lengthscales, and timescales are impacted by the addition of heat, but by relatively small amounts. This contradicts the models and assumptions of recent aeroacoustic theory trying to predict the noise of hot jets. Once the change in jet potential core length has been factored out, most one- and two-point statistics collapse for all hot and cold jets.
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