A new method for measuring turbulent heat fluxes using PIV and fast-response cold-wires

A new method for measuring turbulent heat fluxes using a combination of particle image velocimetry and a nanoscale fast-response cold-wire is tested by examining a rough-wall turbulent boundary layer subject to weakly stable stratification. The method has the advantages of simple calibration and set...

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Published in	Experiments in fluids Vol. 56; no. 7
Main Authors	Williams, Owen, Van Buren, Tyler, Smits, Alexander J.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.07.2015
Subjects	Engineering Engineering Fluid Dynamics Engineering Thermodynamics Extreme Flow Workshop 2014 Fluid- and Aerodynamics Heat and Mass Transfer Research Article Turbulent Prandtl number PIV NSTAP Cold-wires Turbulent heat flux
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Abstract	A new method for measuring turbulent heat fluxes using a combination of particle image velocimetry and a nanoscale fast-response cold-wire is tested by examining a rough-wall turbulent boundary layer subject to weakly stable stratification. The method has the advantages of simple calibration and setup, as well as providing spatial correlations of velocity and temperature and their associated integral length scales. The accuracy of using Taylor’s hypothesis when employing a large field of view is investigated. Heat flux, velocity–temperature correlation coefficients and turbulent Prandtl number profiles, as well as spatial velocity and temperature correlations, are presented.
AbstractList	A new method for measuring turbulent heat fluxes using a combination of particle image velocimetry and a nanoscale fast-response cold-wire is tested by examining a rough-wall turbulent boundary layer subject to weakly stable stratification. The method has the advantages of simple calibration and setup, as well as providing spatial correlations of velocity and temperature and their associated integral length scales. The accuracy of using Taylor’s hypothesis when employing a large field of view is investigated. Heat flux, velocity–temperature correlation coefficients and turbulent Prandtl number profiles, as well as spatial velocity and temperature correlations, are presented.
ArticleNumber	142
Author	Williams, Owen Van Buren, Tyler Smits, Alexander J.
Author_xml	– sequence: 1 givenname: Owen orcidid: 0000-0002-5470-5028 surname: Williams fullname: Williams, Owen email: owilliam@princeton.edu organization: Princeton University – sequence: 2 givenname: Tyler surname: Van Buren fullname: Van Buren, Tyler organization: Princeton University – sequence: 3 givenname: Alexander J. surname: Smits fullname: Smits, Alexander J. organization: Princeton University, Monash University
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Snippet	A new method for measuring turbulent heat fluxes using a combination of particle image velocimetry and a nanoscale fast-response cold-wire is tested by...
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Title	A new method for measuring turbulent heat fluxes using PIV and fast-response cold-wires
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