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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 28, 1995 - Issue 6
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Original Articles

NON-DARCIAN FORCED CONVECTION ANALYSIS IN AN ANNULUS PARTIALLY FILLED WITH A POROUS MATERIAL

S. Chikh Institut de Génie Mécanique, USTHB, BP 32, El Alia, Bab Ezzouar, Algeria
,
A. Boumedien Institut de Génie Mécanique, USTHB, BP 32, El Alia, Bab Ezzouar, Algeria
,
K. Bouhadef Institut de Génie Mécanique, USTHB, BP 32, El Alia, Bab Ezzouar, Algeria
&
G. Lauriat Laboratoire de Thermique, CNAM, 292 Rue Saint-Martin, 75141, Paris, France
Pages 707-722 | Received 19 Sep 1994, Accepted 05 Jun 1995, Published online: 29 Oct 2007

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Mehdi Maerefat, S. Yasser Mahmoudi & Kiumars Mazaheri. (2011) Numerical Simulation of Forced Convection Enhancement in a Pipe by Porous Inserts. Heat Transfer Engineering 32:1, pages 45-56.
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SaritK. Das & AnnasahebS. Bansode. (2009) Heat and Mass Transport in Proton Exchange Membrane Fuel Cells—A Review. Heat Transfer Engineering 30:9, pages 691-719.
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Nuri Yucel & R. Tolga Guven. (2007) Forced-Convection Cooling Enhancement of Heated Elements in a Parallel-Plate Channels using Porous Inserts. Numerical Heat Transfer, Part A: Applications 51:3, pages 293-312.
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Jinliang Yuan & Bengt Sundén. (2004) Numerical Analysis of Heat Transfer and Gas Flow in PEM Fuel Cell Ducts by a Generalized Extended Darcy Model. International Journal of Green Energy 1:1, pages 47-63.
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Articles from other publishers (40)

Abiodun O. Ajibade, Basant K. Jha & Jeremiah J. Gambo. (2023) Simultaneous effects of viscous and Darcy dissipation on mixed convection flow in an annulus partially filled with porous material: Analytical approach. Heat Transfer 52:5, pages 3660-3676.
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B. K. Jha & T. S. Yusuf. (2022) Transient Taylor—Dean flow in a composite annulus partially filled with porous material. Thermophysics and Aeromechanics 29:2, pages 267-280.
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Abiodun O. Ajibade, Basant K. Jha & Jeremiah J. Gambo. (2022) Combined effects of viscous and Darcy dissipation on mixed convection flow in a composite vertical channel partially filled with a porous material: Analytical approach. International Communications in Heat and Mass Transfer 136, pages 106197.
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Shahin Ghanbari & Kourosh Javaherdeh. (2019) Investigation of applying nanoporous graphene non-Newtonian nanofluid on rheological properties and thermal performance in a turbulent annular flow with perforated baffles. Journal of Thermal Analysis and Calorimetry 139:1, pages 629-647.
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Mohammad Zargartalebi & Jalel Azaiez. (2019) Flow dynamics and heat transfer in partially porous microchannel heat sinks. Journal of Fluid Mechanics 875, pages 1035-1057.
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Zuo Wang, Yan Liu, Jiazhong Zhang & Nannan Dang. (2019) Study of laminar natural convection in a vertical annulus with inner wall covered by a porous layer by using lattice Boltzmann method. International Journal of Thermal Sciences 135, pages 386-397.
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Taiwo S. Yusuf & Basant K. Jha. (2018) A semi-analytical solution for time-dependent natural convection flow with heat generation/absorption in an annulus partially filled with porous material. Multidiscipline Modeling in Materials and Structures 14:5, pages 1042-1063.
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Donald A. Nield & Adrian BejanDonald A. Nield & Adrian Bejan. 2017. Convection in Porous Media. Convection in Porous Media 85 160 .
Kamel Milani Shirvan, Rahmat Ellahi, Soroush Mirzakhanlari & Mojtaba Mamourian. (2016) Enhancement of heat transfer and heat exchanger effectiveness in a double pipe heat exchanger filled with porous media: Numerical simulation and sensitivity analysis of turbulent fluid flow. Applied Thermal Engineering 109, pages 761-774.
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Basant K. Jha & J. O. Odengle. (2016) A Semi-analytical Solution for Start-Up Flow in an Annulus Partially Filled with Porous Material. Transport in Porous Media 114:1, pages 49-64.
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B. Zallama, L.Z. Ghedira & S. Ben Nasrallah. (2016) Viscous dissipation generation by an incompressible fluid flow through an adiabatic cylinder filled with a porous medium. Applied Thermal Engineering 103, pages 730-746.
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Fumei Rong, Baochang Shi & Xilin Cui. (2016) Lattice Boltzmann simulation of heat and fluid flow in 3D cylindrical heat exchanger with porous blocks. Applied Mathematics and Computation 276, pages 367-378.
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Fumei Rong, Wenhuan Zhang, Baochang Shi & Zhaoli Guo. (2014) Numerical study of heat transfer enhancement in a pipe filled with porous media by axisymmetric TLB model based on GPU. International Journal of Heat and Mass Transfer 70, pages 1040-1049.
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M. Nazari, R. Mohebbi & M.H. Kayhani. (2014) Power-law fluid flow and heat transfer in a channel with a built-in porous square cylinder: Lattice Boltzmann simulation. Journal of Non-Newtonian Fluid Mechanics 204, pages 38-49.
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N. Targui & H. Kahalerras. (2013) Analysis of a double pipe heat exchanger performance by use of porous baffles and pulsating flow. Energy Conversion and Management 76, pages 43-54.
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Mojtaba Aghajani Delavar & Mehdi Hedayatpour. (2012) Forced convection and entropy generation inside a channel with a heat-generating porous block. Heat Transfer-Asian Research 41:7, pages 580-600.
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Yasser Mahmoudi & Mehdi Maerefat. (2011) Analytical investigation of heat transfer enhancement in a channel partially filled with a porous material under local thermal non-equilibrium condition. International Journal of Thermal Sciences 50:12, pages 2386-2401.
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Mohammad Hamdan & Moh’d A. Al-Nimr. (2009) The Use of Porous Fins for Heat Transfer Augmentation in Parallel-Plate Channels. Transport in Porous Media 84:2, pages 409-420.
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H.Y. Li, K.C. Leong, L.W. Jin & J.C. Chai. (2010) Analysis of fluid flow and heat transfer in a channel with staggered porous blocks. International Journal of Thermal Sciences 49:6, pages 950-962.
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M. Siddique, A.-R. A. Khaled, N. I. Abdulhafiz & A. Y. Boukhary. (2010) Recent Advances in Heat Transfer Enhancements: A Review Report. International Journal of Chemical Engineering 2010, pages 1-28.
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Yue-Tzu Yang & Ming-Lu Hwang. (2009) Numerical simulation of turbulent fluid flow and heat transfer characteristics in heat exchangers fitted with porous media. International Journal of Heat and Mass Transfer 52:13-14, pages 2956-2965.
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N. Targui & H. Kahalerras. (2008) Analysis of fluid flow and heat transfer in a double pipe heat exchanger with porous structures. Energy Conversion and Management 49:11, pages 3217-3229.
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H. Kahalerras & N. Targui. (2008) Numerical analysis of heat transfer enhancement in a double pipe heat exchanger with porous fins. International Journal of Numerical Methods for Heat & Fluid Flow 18:5, pages 593-617.
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A. S. Bansode, Siddharth Patel, T. Rajesh Kumar, B. Muralidhar, T. Sundararajan & Sarit Kumar Das. (2006) Numerical simulation of effects of flow maldistribution on heat and mass transfer in a PEM fuel cell stack. Heat and Mass Transfer 43:10, pages 1037-1047.
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R. Nebbali & K. Bouhadef. (2006) Numerical study of forced convection in a 3D flow of a non‐Newtonian fluid through a porous duct. International Journal of Numerical Methods for Heat & Fluid Flow 16:8, pages 870-889.
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Mebrouk Ait Saada, Salah Chikh & Antonio Campo. (2005) Analysis of hydrodynamic and thermal dispersion in porous media by means of a local approach. Heat and Mass Transfer 42:11, pages 995-1006.
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Nadia Allouache & Salah Chikh. (2006) Second Law Analysis in a Partly Porous Double Pipe Heat Exchanger. Journal of Applied Mechanics 73:1, pages 60-65.
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Jinliang Yuan & Bengt Sundén. (2005) Analysis of Intermediate Temperature Solid Oxide Fuel Cell Transport Processes and Performance. Journal of Heat Transfer 127:12, pages 1380-1390.
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T.V. Morosuk. (2005) Entropy generation in conduits filled with porous medium totally and partially. International Journal of Heat and Mass Transfer 48:12, pages 2548-2560.
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A.A. Mohamad. (2003) Heat transfer enhancements in heat exchangers fitted with porous media Part I: constant wall temperature. International Journal of Thermal Sciences 42:4, pages 385-395.
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M.K Alkam, M.A Al-Nimr & M.O Hamdan. (2001) Enhancing heat transfer in parallel-plate channels by using porous inserts. International Journal of Heat and Mass Transfer 44:5, pages 931-938.
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M.O. Hamdan, M.A. Al‐Nimr & M.K. Alkam. (2000) Enhancing forced convection by inserting porous substrate in the core of a parallel‐plate channel. International Journal of Numerical Methods for Heat & Fluid Flow 10:5, pages 502-518.
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E.r.g Eckert, R.J Goldstein, W.e Ibele, S.V Patankar, T.W Simon, P.J Strykowski, K.K Tamma, T.H Kuehn, A Bar-Cohen, J.V.R Heberlein, J.H Davidson, J Bischof, F Kulacki & U Kortshagen. (1999) Heat transfer—a review of 1995 literature. International Journal of Heat and Mass Transfer 42:15, pages 2717-2797.
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M. K. Alkam & M. A. Al-Nimr. (1999) Solar Collectors with Tubes Partially Filled with Porous Substrates. Journal of Solar Energy Engineering 121:1, pages 20-24.
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Donald A. Nield & Adrian BejanDonald A. Nield & Adrian Bejan. 1999. Convection in Porous Media. Convection in Porous Media 51 104 .
Donald A. Nield & Adrian BejanDonald A. Nield & Adrian Bejan. 1999. Convection in Porous Media. Convection in Porous Media 33 50 .
Y. Ould-Amer, S. Chikh, K. Bouhadef & G. Lauriat. (1998) Forced convection cooling enhancement by use of porous materials. International Journal of Heat and Fluid Flow 19:3, pages 251-258.
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M.K. Alkam & M.A. Al-Nimr. (1998) Transient non-Darcian forced convection flow in a pipe partially filled with a porous material. International Journal of Heat and Mass Transfer 41:2, pages 347-356.
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M. A. Al-Nimr & M. K. Alkam. (1997) Unsteady Non-Darcian Forced Convection Analysis in an Annulus Partially Filled With a Porous Material. Journal of Heat Transfer 119:4, pages 799-804.
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Salah Chikh, Ali Boumedien, Khedidja Bouhadef & Guy Lauriat. (1997) Amélioration du transfert thermique par un dépôt poreux sur la paroi d'un échangeur tubulaire. Revue Générale de Thermique 36:1, pages 41-50.
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