Development of a thermal conductivity cell with nanolayer coating for thermal conductivity measurement of fluids |
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Authors: | F. Tian L. Sun J. E. S. Venart R. C. Prasad S. C. Mojumdar |
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Affiliation: | (1) Department of Engineering, University of New Brunswick, Saint John, NB, E2L 4L5, Canada;(2) Department of Mechanical Engineering, University of New Brunswick, Fredericton, NB, E3B 5A3, Canada;(3) Department of Chemical Engineering and Applied Chemistry, University of Toronto, 200 College St., Toronto, ON, M5S 3E5, Canada |
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Abstract: | Various techniques and methodologies of thermal conductivity measurement have been based on the determination of the rate of directional heat flow through a material having a unit temperature differential between its opposing faces. The constancy of the rate depends on the material density, its thermal resistance and the heat flow path itself. The last of these variables contributes most significantly to the true value of steady-state axial and radial heat dissipation depending on the magnitude of transient thermal diffusivity along these directions. The transient hot-wire technique is broadly used for absolute measurements of the thermal conductivity of fluids. Refinement of this method has resulted in a capability for accurate and simultaneous measurement of both thermal conductivity and thermal diffusivity together with the determination of the specific heat. However, these measurements, especially those for the thermal diffusivity, may be significantly influenced by fluid radiation. Recently developed corrections have been used to examine this assumption and rectify the influence of even weak fluid radiation. A thermal conductivity cell for measurement of the thermal properties of electrically conducting fluids has been developed and discussed. |
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Keywords: | nanolayer coating thermal conductivity thermal conductivity cell thermal diffusivity thermal radiation transient hot wire technique |
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