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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 43, 2003 - Issue 6
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Original Articles

COMPUTATION OF TURBULENT FLOW IN POROUS MEDIA USING A LOW-REYNOLDS K -ε MODELAND AN INFINITE ARRAY OF TRANSVERSALLY DISPLACED ELLIPTIC RODS

Marcos H. J. Pedras Instituto de Pesquisa e Desenvolvimento IP&D, UNIVAP, São Paulo, Brazil
&
Marcelo J. S. de Lemos Departamento de Energia--IEME, Instituto Tecnológico de Aeronáutica--ITA, São Paulo, Brazil
Pages 585-602 | Published online: 30 Nov 2010

References

  • F. Kuwahara and A. Nakayama, Numerical Modeling of Non-Darcy Convective Flow in a Porous Medium, Proc. 11th Int. Heat Transfer Conf., Kyongyu, Korea, August 23-28, 1998.
  • Nakayama , A. and Kuwahara , F. 1999 . A Macroscopic Turbulence Model for Flow in a Porous Medium . ASME J. fluids Eng. , 121 : 427 – 433 .
  • M. H. J. Pedras and M. J. S. de Lemos, Results for Macroscopic Turbulence Modeling for Porous Media, Proc. ENCIT98-7th Braz. Cong. Eng. Th. Sci., vol. 2, pp. 1272-1277, Rio de Janeiro, Brazil, November 3-6, 1998 (in Portuguese).
  • M. H. J. Pedras and M. J. S. de Lemos, Macroscopic Turbulence Modeling for Saturated Porous Media, Proc. COBEM99-15th Braz. Congr. Mech. Eng. (on CD-ROM), Águas de Lindóia, Säo Paulo, Brazil, November 22-26, 1999a (in Portuguese).
  • Pedras , M. H. J. and de Lemos , M. J. S. 2001a . Macroscopic Turbulence Modeling for Incompressible Flow through Undeformable Porous Media . Int. J. Heat Mass Transfer , 44 ( 6 ) : 1081 – 1093 .
  • V. S. Travkin, K. Hu, and I. Catton, Turbulent Kinetic Energy and Dissipation Rate Equation Models for Momentum Transport in Porous Media, Proc. 3rd ASME/JSME Joint Fluids Engineering Conf. (on CD-ROM), Paper FEDSM99-7275, San Francisco, CA, July 18-23, 1999.
  • Lage , J. L. 1998 . “ The Fundamental Theory of Flow through Permeable Media from Darcy to Turbulence ” . In Transport Phenomena in Porous Media , Edited by: Ingham , D. B. and Pop , I. 23 Oxford, UK : Elsevier .
  • de Lemos , M. J. S. and Pedras , M. H. J. 2001 . Recent Mathematical Models for Turbulent Flow in Saturated Rigid Porous Media . J. Fluids Eng. , 124 ( 4 ) : 935 – 940 .
  • Pedras , M. H. J. and de Lemos , M. J. S. 2001c . On the Mathematical Description and Simulation of Turbulent Flow in a Porous Medium Formed by an Array of Elliptic Rods . Fluids Eng. , 124 ( 4 ) : 941 – 947 .
  • Bhattacharya , A. , Calmidi , V. V. and Mahajam , R. L. 2002 . Thermophysical Properties of High Porosity Metal Foams . Int. J. Heat Mass Transfer , 45 ( 5 ) : 1017 – 1031 .
  • Abe , K. , Nagano , Y. and Kondoh , T. 1992 . An Improved k-e Model for Prediction of Turbulent Flows with Separation and Reattachment . Trans. Jpn. Soc. Mech. Eng., B , 58 : 3003 – 3010 .
  • Launder , B. E. and Spalding , D. B. 1974 . The Numerical Computation of Turbulent Flows . Comput. Meth. Appl. Mech. Eng. , 3 : 269 – 289 .
  • Patankar , S. V. 1980 . Numerical Heat Transfer and Fluid Flow , New York : Hemisphere .
  • Slattery , J. C. 1967 . Flow of Viscoelastic Fluids through Porous Media . AIChE J. , 13 : 1066 – 1071 .
  • Darcy , H. 1856 . Les Fontaines Publiques de la Vile de Dijon , Paris : Victor Dalmond .
  • Forchheimer , P. 1901 . Wasserbewegung durch Boden . Z. Ver. Deutsch. Ing. , 45 : 1736 – 1741 and 1781-1788 .
  • Brinkman , H. C. 1947 . A Calculation of the Viscous Force Exerted by a Flowing Fluid on a Dense Swarm of Particles . Appl. Sci Res. A , 1 : 27 – 34 .
  • Ward , J. C. 1964 . Turbulent Flow in Porous Media . J. Hydraul. Div. ASCE , 90 (HY5) : 1 – 12 .
  • Whitaker , S. 1969 . Advances in Theory of Fluid Motion in Porous Media . Ind. Eng. Chem. , 61 : 14 – 28 .
  • Bear , J. 1972 . Dynamics of Fluids in Porous Media , New York : American Elsevier .
  • Vafai , K. and Tien , C. L. 1981 . Boundary and Inertia Effects on Flow and Heat Transfer in Porous Media . Int. J. Heat Mass Transfer , 24 : 195 – 203 .
  • Hsu , C. T. and Cheng , P. 1990 . Thermal Dispersion in a Porous Medium . Int. J. Heat Mass Transfer , 33 : 1587 – 1597 .
  • Macdonald , I. F. , El-Sayed , M. S. , Mow , K. and Dullien , F. A. L. 1979 . Flow through Porous Media: The Ergun Equation Revisited . Ind. Chem. Fundam. , 18 : 199 – 208 .
  • Kececiooglu , I. and Jiang , Y. 1994 . Flow through Porous Media of Packed Spheres Saturated with Water . J. Fluids Eng. , 116 : 164 – 170 .
  • Takatsu , Y. and Masuoka , T. 1998 . Turbulent Phenomena in Flow through Porous Media . J/. Porous Media , 1 ( 3 ) : 243 – 251 .
  • Lee , K. and Howell , J. R. 1987 . Forced Convective and Radiative Transfer within a Highly Porous Layer Exposed to a Turbulent External Flow Field . Proc. 1987 ASME-JSME Thermal Engineering Joint Conf. , 2 : 377 – 386 .
  • M. J. S. de Lemos, and M. H. J. Pedras, Modeling Turbulence Phenomena in Incompressible Flow through Saturated Porous Media, Proc. 34th ASME-Natl. Heat Transfer Conf. (on CD-ROM), ASME-HTD-I463CD, Paper NHTC2000-12120, Pittsburgh, PA, August 20-22, 2000a.
  • M. J. S. de Lemos, Modeling Turbulent Flow in Saturated Rigid Porous Media, Proc. NHTC'01, 35th Natl. Heat Transfer Conf., Tl 5-04 Panel on Porous Media, Anaheim, CA, June 10-12, 2001.
  • M. J. S. de Lemos and M. H. J. Pedras, Simulation of Turbulent Flow through Hybrid Porous Medium-Clear Fluid Domains, Proc. IMECE2000-ASME Int. Mechanical Engineering Congr., ASME-HTD-366-5, pp. 113-122, Orlando, FL, November 5-10, 2000b.
  • F. D. Rocamora, Jr. and M. J. S. de Lemos, Prediction of Velocity and Temperature Profiles for Hybrid Porous Medium-Clean Fluid Domains, Proc. CONEM2000-Natl. Mechanical Engineering Congr. (on CD-ROM), Natal, Rio Grande do Norte, Brazil, August 7-11,2000b.
  • Wang , H. and Takle , E. S. 1995 . Boundary-Layer Flow and Turbulence near Porous Obstacles . Boundary Layer Meteorol. , 74 : 73 – 88 .
  • Antohe , B. V. and Lage , J. L. 1997 . A General Two-Equation Macroscopic Turbulence Model for Incompressible Flow in Porous Media . Int. J. Heat Mass Transfer , 40 : 3013 – 3024 .
  • Getachewa , D. , Minkowycz , W. J. and Lage , J. L. 2000 . A Modified Form of the k-e Model for Turbulent Flow of an Incompressible Fluid in Porous Media . Int. J. Heat Mass Transfer , 43 : 2909 – 2915 .
  • F. D. Rocamora, Jr. and M. J. S. de Lemos, Simulation of Turbulent Heat Transfer in Porous Media Using a Spatially Periodic Cell and the k-e Model, Proc. COBEM99-15th Braz. Congr. Mech. Eng. (on CD-ROM), Águas de Lindãia, Säo Paulo, Brazil, November 22-26, 1999.
  • F. D. Rocamora, Jr. and M. J. S. de Lemos, Laminar Recalculating Flow and Heat Transfer in Hybrid Porous Medium-Clear Fluid Computational Domains, Proc. 34th ASME-Natl. Heat Transfer Conf. (on CD-ROM), ASME-HTD-I463CD, Paper NHTC2000-12317, Pittsburgh, PA, August 20-22, 2000c.
  • F. D. Rocamora, Jr. and M. J. S. de Lemos, Heat Transfer in Suddenly Expanded Flow in a Channel with Porous Inserts, Proc IMECE2000-ASME-Int. Mechanical Engineering Congr., ASME-HTD-366-5, pp. 191-195, Orlando, FL, November 5-10, 2000d.
  • V. S. Travkin and I. Catton, Models of Turbulent Thermal Diffusivity and Transfer Coefficients for a Regular Packed Bed of Spheres, Proc. 28th Natl. Heat Transfer Conf. C-4, ASME-HTD-193, pp. 15-23, San Diego, CA, 1992.
  • Travkin , V. S. and Catton , I. 1995 . A Two Temperature Model for Turbulent Flow and Heat Transfer in a Porous Layer . J. Fluid Eng. , 117 : 181 – 188 .
  • Travkin , V. S. and Catton , I. 1998 . Porous Media Transport Descriptions-Non-local . Linear and Non-Linear against Effective Thermal/Fluid Properties, Adv. Colloid Interface Sci , 76-77 : 389 – 443 .
  • L. Gratton, V. S. Travkin, and I. Catton, Numerical Solution of Turbulent Heat and Mass Transfer in a Stratified Geostatistical Porous Layer for High Permeability Media, ASME Proc., HTD-vol. 41, pp. 1-14, 1994.
  • V. S. Travkin, I. Catton, and L. Gratton, Single-Phase Turbulent Transport in Prescribed Non-Isotropic and Stochastic Porous Media, Heat Transfer in Porous Media, ASMEHTD-240, pp. 43-48, 1993.
  • Masuoka , T. and Takatsu , Y. 1996 . Turbulence Model for Flow through Porous Media . Int. J. Heat Mass Transfer , 39 : 2803 – 2809 .
  • Kuwahara , F. , Kameyama , Y. , Yamashita , S. and Nakayama , A. 1998 . Numerical Modeling of Turbulent Flow in Porous Media Using a Spatially Periodic Array . J. Porous Media , 1 : 47 – 55 .
  • M. H. J. Pedras and M. J. S. de Lemos, Numerical Solution of Turbulent Flow in Porous Media Using a Spatially Periodic Cell and the Low Reynolds k-e Model, Proc. CONEM2000-Natl. Mechanical Engineering Congr. (on CD-ROM), Natal, Rio Grande do Norte, Brazil, August 7-11, 2000b (in Portuguese).
  • M. H. J. Pedras and M. J. S. de Lemos, On Volume and Time Averaging of Transport Equations for Turbulent Flow in Porous Media, Proc. 3rd ASME/JSME Joint Fluids Engineering Conf. (on CDROM), ASME-FED-248, Paper FEDSM99-7273, San Francisco, CA, July 18-23, 1999b.
  • Pedras , M. H. J. and de Lemos , M. J. S. 2000a . On the Definition of Turbulent Kinetic Energy for Flow in Porous Media . Int. Commun. Heat Mass Transfer , 27 ( 2 ) : 211 – 220 .
  • Rocamora , F. D. Jr and de Lemos , M. J. S. 2000a . Analysis of Convective Heat Transfer for Turbulent Flow in Saturated Porous Media . Int. Commun. Heat Mass Transfer , 27 ( 6 ) : 825 – 834 .
  • Pedras , M. H. J. and de Lemos , M. J. S. 2001b . Simulation of Turbulent Flow in Porous Media Using a Spatially Periodic Array and a Low Re Two-Equation Closure . Numer. Heat Transfer A , 39 ( 1 ) : 35 – 59 .
  • F. D. Rocamora, Jr. and M. J. S. de Lemos, Numerical Solution of Turbulent Flow in Porous Media Using a Spatially Periodic Array and the k-e Model, Proc. ENCIT-98-7th Braz. Gang. Eng. Th. Sci, vol. 2, pp. 1265-1271, Rio de Janeiro, Brazil, November 3-6, 1998.

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