A numerical study of heat and momentum transfer for tube bundles in crossflow |
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Authors: | Yeon Chang Antony N. Beris Efstathios E. Michaelides |
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Abstract: | A numerical scheme is developed to predict the heat transfer and pressure drop coefficients in flow through rigid tube bundles. The scheme uses the Galerkin finite element technique. The conservation equations for laminar steady-state flow are cast in the form of streamfunction and vorticity equations. A Picard iteration method is used for the solution of the resulting system of non-linear algebraic equations. Results for the heat transfer and pressure drop coefficients are obtained for tube arrays of pitch ratios of 1·5 and 2·0. Very good agreement of the present results and experimental data obtained in the past is observed up to Reynolds numbers of 1000. It is also observed that the results of the present method show better agreement with the experimental data and that they are applicable for higher Reynolds numbers than results of other studies. |
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Keywords: | Heat exchangers Crossflow Tube bundle Nusselt number Streamfunction/vorticity |
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