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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 55, 2009 - Issue 2
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Original Articles

Heatfunction Formulation of Thermal Convection in Rectangular Enclosures Filled with Porous Media

M. Adekojo Waheed Mechanical Engineering Department, Ladoke Akintola University of Technology, Oyo State, NigeriaCorrespondence[email protected]
Pages 185-204 | Received 05 Mar 2008, Accepted 17 Oct 2008, Published online: 02 Jan 2009

Citations (24)

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Saqib Jamshed & Amit Kumar Dhiman. (2023) Analysis of the laminar flow and enhanced heat transfer rate through a triangular array of cylinders embedded in a fluid-saturated porous media with mixed convection. Numerical Heat Transfer, Part A: Applications 84:9, pages 1032-1053.
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Leo Lukose & Tanmay Basak. (2021) Unified approach on numerical implementation of heatfunction boundary conditions for accurate prediction of heatlines involving steady convection in enclosures. Numerical Heat Transfer, Part A: Applications 80:6, pages 291-317.
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R. Anandalakshmi, Tanmay Basak & Leo Lukose. (2019) Numerical visualization via heatlines for natural convection in porous bodies of rhombic shapes subjected to thermal aspect ratio-based heating of walls. Numerical Heat Transfer, Part A: Applications 76:9, pages 687-711.
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Prashant Meshram, Saurabh Bhardwaj, Amaresh Dalal & Sukumar Pati. (2016) Effects of the inclination angle on natural convection heat transfer and entropy generation in a square porous enclosure. Numerical Heat Transfer, Part A: Applications 70:11, pages 1271-1296.
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Tanmay Basak, R. Anandalakshmi & Pratibha Biswal. (2013) Analysis of Convective Heat Flow Visualization within Porous Right Angled Triangular Enclosures with a Concave/Convex Hypotenuse. Numerical Heat Transfer, Part A: Applications 64:8, pages 621-647.
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M. Sankar, Junpyo Park, Dongseok Kim & Younghae Do. (2013) Numerical Study of Natural Convection in a Vertical Porous Annulus with an Internal Heat Source: Effect of Discrete Heating. Numerical Heat Transfer, Part A: Applications 63:9, pages 687-712.
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D. Ramakrishna, Tanmay Basak & S. Roy. (2013) Heatlines for Visualization of Heat Transport for Natural Convection within Porous Trapezoidal Enclosures with Various Wall Heating. Numerical Heat Transfer, Part A: Applications 63:5, pages 347-372.
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R. Anandalakshmi & Tanmay Basak. (2013) Numerical Simulations for the Analysis of Entropy Generation During Natural Convection in Porous Rhombic Enclosures. Numerical Heat Transfer, Part A: Applications 63:4, pages 257-284.
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Tien-Mo Shih, Martinus Arie & Derrick Ko. (2011) Literature Survey of Numerical Heat Transfer (2000–2009): Part II. Numerical Heat Transfer, Part A: Applications 60:11-12, pages 883-1096.
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K. Al-Farhany & A. Turan. (2011) Unsteady Conjugate Natural Convective Heat Transfer in a Saturated Porous Square Domain Generalized Model. Numerical Heat Transfer, Part A: Applications 60:9, pages 746-765.
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Guven Komurgoz, Aytac Arikoglu, Ebru Turker & Ibrahim Ozkol. (2010) Second-Law Analysis for an Inclined Channel Containing Porous-Clear Fluid Layers by Using the Differential Transform Method. Numerical Heat Transfer, Part A: Applications 57:8, pages 603-623.
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Articles from other publishers (13)

Mahesh Kumar & Pranab Kumar Mondal. (2021) Bejan's flow visualization of buoyancy-driven flow of a hydromagnetic Casson fluid from an isothermal wavy surface. Physics of Fluids 33:9.
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Debayan Das, Leo Lukose & Tanmay Basak. (2019) Analysis of efficiency of convection in porous geometries (square vs triangular) with multiple discrete heaters on walls. International Journal of Numerical Methods for Heat & Fluid Flow 29:9, pages 3305-3346.
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Debayan Das, Leo Lukose & Tanmay Basak. (2018) Role of multiple solar heaters along the walls for the thermal management during natural convection in square and triangular cavities. Renewable Energy 121, pages 205-229.
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Tanmay Basak, Debayan Das & Pratibha Biswal. (2018) Heatlines: Modeling, visualization, mixing and thermal management. Progress in Energy and Combustion Science 64, pages 157-218.
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S. Saravanan & V.P.M. Senthil Nayaki. (2017) Natural convection in a cubical porous cavity with partially active lateral walls. International Communications in Heat and Mass Transfer 80, pages 41-46.
Crossref
Donald A. Nield & Adrian BejanDonald A. Nield & Adrian Bejan. 2017. Convection in Porous Media. Convection in Porous Media 363 437 .
Abhishek Kumar Singh, Tanmay Basak, Avijit Nag & S. Roy. (2015) Heatlines and thermal management analysis for natural convection within inclined porous square cavities. International Journal of Heat and Mass Transfer 87, pages 583-597.
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Hussein Togun, Tuqa Abdulrazzaq, S.N. Kazi, A. Badarudin, A.A.H. Kadhum & E. Sadeghinezhad. (2014) A review of studies on forced, natural and mixed heat transfer to fluid and nanofluid flow in an annular passage. Renewable and Sustainable Energy Reviews 39, pages 835-856.
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D. Ramakrishna, Tanmay Basak, S. Roy & I. Pop. (2013) Analysis of heatlines during natural convection within porous square enclosures: Effects of thermal aspect ratio and thermal boundary conditions. International Journal of Heat and Mass Transfer 59, pages 206-218.
Crossref
Donald A. Nield & Adrian BejanDonald A. Nield & Adrian Bejan. 2013. Convection in Porous Media. Convection in Porous Media 331 396 .
Hasan Celik & Moghtada Mobedi. (2012) Visualization of heat flow in a vertical channel with fully developed mixed convection. International Communications in Heat and Mass Transfer 39:8, pages 1253-1264.
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R. Anandalakshmi & Tanmay Basak. (2011) Heatline Analysis for Natural Convection within Porous Rhombic Cavities with Isothermal/Nonisothermal Hot Bottom Wall. Industrial & Engineering Chemistry Research 51:4, pages 2113-2132.
Crossref
M. Sankar, Youngyong Park, J.M. Lopez & Younghae Do. (2011) Numerical study of natural convection in a vertical porous annulus with discrete heating. International Journal of Heat and Mass Transfer 54:7-8, pages 1493-1505.
Crossref

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