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Convective flow and heat transfer in variable-porosity media

Published online by Cambridge University Press:  20 April 2006

Kambiz Vafai
Kambiz Vafai
Affiliation:
Department of Mechanical Engineering, The Ohio State University, Columbus
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Abstract

The present work analyses the effects of variable porosity and inertial forces on convective flow and heat transfer in porous media. Specific attention is given to forced convection in packed beds in the vicinity of an impermeable boundary. After establishing the governing equations, a thorough investigation of the channelling effect and its influence on flow and heat transfer through variable-porosity media is presented. Based on some analytical considerations, a numerical scheme for the solution of the governing equations is proposed to investigate the variable-porosity effects on the velocity and temperature fields inside the porous medium. The method of matched asymptotic expansions is used to show the qualitative aspects of variable porosity in producing the channelling effect. These qualitative features are also confirmed by the numerical solution. The qualitative effects of the controlling parameters on flow and heat transfer in variable-porosity media are discussed at length. The variable-porosity effects are shown to be significant for most cases. For the same conditions as the perturbation solution, the numerical results are in excellent agreement with the perturbation analysis. The numerical results are also in very good agreement with the available experimental data of previous studies.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 147 , October 1984 , pp. 233 - 259
Copyright
© 1984 Cambridge University Press

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References

Balakrishnan, A. R. & Pei, D. C. T. 1974 Heat transfer in fixed beds. Ind. Engng Chem. Proc. 13, 441446.Google Scholar
Benenati, R. F. & Brosilow, C. B. 1962 Void fraction distribution in packed beds. AIChE J. 8, 359361.Google Scholar
Burns, P. J. & Tien, C. L. 1979 Natural convection in porous media bounded by concentric spheres and horizontal cylinders. Intl J. Heat Mass Transfer 22, 929939.Google Scholar
Chandrasekhara, B. C. & Vortmeyer, D. 1979 Flow model for velocity distribution in fixed porous beds under isothermal conditions. Th. Fluid Dyn. 12, 105111.Google Scholar
Cheng, P. & Minkowycz, W. J. 1977 Free convection about a vertical flat plate embedded in a porous medium with application to heat transfer from a dike. J. Geophys. Res. 82, 20402044.Google Scholar
Denloye, A. O. O. & Botterill, J. S. M. 1977 Heat transfer in flowing packed beds. Chem. Engng Sci. 32, 461465.Google Scholar
DeWiest, R. J. M. 1969 Flow Through Porous Media. Academic.
Ergun, S. 1952 Fluid flow through packed columns. Chem. Engng Prog. 48, 8994.Google Scholar
Hughmark, G. A. 1976 Heat transfer in packed beds. AIChE J. 22, 198199.Google Scholar
Roblee, L. H. S. et al. 1958 Radial porosity variation in packed beds. AIChE J. 4, 450464.Google Scholar
Schertz, W. M. & Bischoff, K. B. 1969 Thermal and material transport in non-isothermal packed beds. AIChE J. 15, 597604.Google Scholar
Schlunder, E. U. 1978 Transport phenomenon in packed bed reactors. Chem. Reaction Engng Rev., pp. 110161.
Schwartz, C. E. & Smith, J. M. 1953 Flow distribution in packed beds. Ind. Engng Chem. 45, 12091218.Google Scholar
Stanek, V. & Szekely, J. 1972 The effect of non-uniform porosity in causing flow maldistributions in isothermal packed beds. Can. J. Chem. Engng 50, 914.Google Scholar
Tien, C. L. & Vafai, K. 1979 Statistical bounds for the effective thermal conductivity of microsphere and fibrous insulation. Prog. Astro. Aero. 65, 135148.Google Scholar
Vafai, K. & Tien, C. L. 1981 Boundary and inertia effects on flow and heat transfer in porous media. Intl J. Heat Mass Transfer 24, 195203.Google Scholar
Vafai, K. & Tien, C. L. 1982 Boundary and inertia effects on convective mass transfer in porous media. Intl J. Heat Mass Transfer 25, 11831190.Google Scholar
Whitaker, S. 1969 Advances in theory of fluid motion in porous media. Ind. Engng Chem. 61, 1428.Google Scholar