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Heat Transfer Research
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ISSN Imprimir: 1064-2285

ISSN On-line: 2162-6561

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FINITE-DIFFERENCE ANALYSIS OF THE GENERALIZED GRAETZ PROBLEM WITH HEAT CONVECTION BOUNDARY CONDITION

Volume 51, Edição 8, 2020, pp. 797-806
DOI: 10.1615/HeatTransRes.2020031877
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Muslum Arici
Kocaeli University, Engineering Faculty, Mechanical Engineering Department, Umuttepe Campus, 41380 Kocaeli, Turkey
Yunesky Masip Macia
Escuela de Ingenieria Mecanica, Pontificia Universidad Catolica de Valparaiso, Valparaiso, Chile
Antonio Campo
The University of Texas at San Antonio

RESUMO

The present study addresses forced convection heat transfer of an internal viscous fluid in a tube with fully developed laminar velocity and uniform entrance temperature. The internal viscous fluid exchanges heat with an external viscous fluid moving normally to the tube at a different temperature. Specifically, the description corresponds to a generalized Graetz problem with heat convection boundary condition. Contrary to the tradition in vogue, the standard method of separation of variables and the ensuing Sturm−Liouville theory are not employed for solving the generalized Graetz problem in the present study. Rather, the goal of the study is to implement an approximate finite difference methodology with an explicit scheme. The primary thermal quantity of interest in the study is the mean bulk temperature of the internal viscous fluid accounting for the entire range of modified Biot numbers (0 < Bi < ∞). Subsequently, the other thermal quantities of secondary interest in the study are the wall temperature and the total heat transfer. The agreement of the approximate numerical results with the counterpart exact analytical results is excellent for all values of Bi ranging from 0 to 100 in practice. The exact analytical results expressed in terms of the generalized Graetz series are considered as the baseline solutions in the heat convection literature.

Palavras-chave: two-dimensional energy equation, fully developed laminar velocity, uniform entrance temperature, heat convection boundary condition, finite difference method, numerical temperature field, total heat transfer
Referências

  1. Bejan, A., Convection Heat Transfer, 4th Ed., New York: Wiley, 2013.

  2. Campo, A. and Marucho, M.D., Approximate Semi-Analytic Solution of the Graetz-Nusselt Problem: The Method of Lines, J. Thermophys. Heat Transf., vol. 32, no. 2, pp. 532-537, 2018.

  3. Chapra, S.C. and Canale, R.P., Numerical Methods for Engineers, 7th Ed., New York: McGraw-Hill, 2014.

  4. Churchill, S.W. and Bernstein, M., A Correlating Equation for Forced Convection from Gases and Liquids to a Circular Cylinder in Cross Flow, J. Heat Transf., vol. 99, pp. 300-306, 1977.

  5. Hewitt, G.H., Shires, G.L., and Bott, T.R., Process Heat Transfer, Boca Raton, FL: CRC Press, 1994.

  6. Hsu, C.-J., Laminar Flow Heat Transfer in Circular or Parallel-Plate Channels with Internal Heat Generation and the Boundary Condition of the Third Kind, J. Chin. Inst. Chem. Eng., vol. 2, pp. 85-100, 1971.

  7. Luikov, A.V., Analytical Heat Diffusion Theory, London: Academic Press, 1968.

  8. Moffat, R.J., Contributions to the Theory of Single-Sample Uncertainty Analysis, ASME J. Fluids Eng., vol. 104, no. 2, pp. 250-260, 1982.

  9. Morton, K.W. and Mayers, D.F., Numerical Solution of Partial Differential Equations: An Introduction, Cambridge, UK: Cambridge University Press, 2005.

  10. Ozisik, M.N. and Sadeghipour, M.S., Analytic Solution for the Eigenvalues and Coefficients of the Graetz Problem with Third Kind Boundary Condition, Int. J. Heat Mass Transf., vol. 25, no. 5, pp. 736-739, 1982.

  11. Ozisik, M.N., Heat Conduction, 2nd ed., New York: Wiley, 1993.

  12. Shah, R.K. and London, A.L., Laminar Flow Forced Convection in Ducts, in Advances in Heat Transfer, T.F. Irvine, Jr. and J.P. Hartnett, Eds., New York: Academic Press, pp. 99-105, 1978.

  13. Wang, H., Yin, D., and Hongbin, M., Heat Transfer Analysis of a Liquid Plug Flowing in a Tube, Heat Transf. Res., vol. 48, no. 8, pp. 757-969, 2017.

CITADO POR

  1. Rosales-Vera Marco, Cartesian Graetz problem with boundary condition of the third kind: A semi-analytical solution, International Journal of Thermofluids, 14, 2022. Crossref

  2. Rosales-Vera Marco, A note on Leveque's solution to the Cartesian Graetz problem with free convection, International Journal of Thermofluids, 16, 2022. Crossref

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