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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 34, 1998 - Issue 2
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Original Articles

CONJUGATE HEAT AND MASS TRANSFER IN CONVECTIVE DRYING OF POROUS MEDIA

Leandro S. Oliveira Department of Agricultural and Biological Engineering, Purdue University, W. Lafayette, Indiana, USA
&
Kamyar Haghighi Department of Agricultural and Biological Engineering, Purdue University, W. Lafayette, Indiana, USA
Pages 105-117 | Received 23 Sep 1997, Accepted 17 Mar 1998, Published online: 15 Mar 2007

Citations (36)

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Pratibha Biswal & Tanmay Basak. (2017) Investigation of natural convection via heatlines for Rayleigh–Bénard heating in porous enclosures with a curved top and bottom walls. Numerical Heat Transfer, Part A: Applications 72:4, pages 291-312.
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M. Ozgun Korukcu. (2017) Numerical modeling of heat and mass transfer characteristics during the forced convection drying of a square cylinder under strong blockage. Numerical Heat Transfer, Part A: Applications 72:2, pages 171-184.
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Pratibha Biswal & Tanmay Basak. (2017) Analysis of entropy generation during natural convection in porous enclosures with curved surfaces. Numerical Heat Transfer, Part A: Applications 71:1, pages 17-43.
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Tanmay Basak, Ram Satish Kaluri & A.R. Balakrishnan. (2012) Entropy Generation During Natural Convection in a Porous Cavity: Effect of Thermal Boundary Conditions. Numerical Heat Transfer, Part A: Applications 62:4, pages 336-364.
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Chr. Lamnatou, E. Papanicolaou, V. Belessiotis & N. Kyriakis. (2009) Conjugate Heat and Mass Transfer from a Drying Rectangular Cylinder in Confined Air Flow. Numerical Heat Transfer, Part A: Applications 56:5, pages 379-405.
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B. Vijayaraj & R. Saravanan. (2008) Numerical Modeling of Moisture and Temperature Distribution within a Rectangular Bagasse Layer Undergoing Drying. Drying Technology 26:6, pages 749-758.
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R. Younsi, D. Kocaefe, S. Poncsak & T. Junjun. (2008) Numerical and Experimental Validation of The Transient Heat And Mass Transfer During Heat Treatment Of Pine Wood. International Journal of Modelling and Simulation 28:2, pages 117-123.
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Ahmet Kaya, Orhan Aydin & Ibrahim Dincer. (2007) Numerical Modeling of Forced-Convection Drying of Cylindrical Moist Objects. Numerical Heat Transfer, Part A: Applications 51:9, pages 843-854.
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John Eriksson, Sigurdur Ormarsson & Hans Petersson. (2006) Finite-Element Analysis of Coupled Nonlinear Heat and Moisture Transfer in Wood. Numerical Heat Transfer, Part A: Applications 50:9, pages 851-864.
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Junye Wang, Nicholas Christakis, MayurK. Patel, Mark Cross & MarkC. Leaper. (2004) A COMPUTATIONAL MODEL OF COUPLED HEAT AND MOISTURE TRANSFER WITH PHASE CHANGEIN GRANULAR SUGAR DURING VARYING ENVIRONMENTAL CONDITIONS. Numerical Heat Transfer, Part A: Applications 45:8, pages 751-776.
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Giulio Croce, Hélïse Beaugendre & Wagdi G. Habashi. (2002) NUMERICAL SIMULATION OF HEAT TRANSFER IN MIST FLOW. Numerical Heat Transfer, Part A: Applications 42:1-2, pages 139-152.
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Articles from other publishers (25)

Damodara Priyanka, Pratibha Biswal & Tanmay Basak. (2022) Role of curved walls on efficient thermal convection in porous beds confined within enclosures: heatline and entropy production maps. International Journal of Numerical Methods for Heat & Fluid Flow 33:5, pages 1661-1702.
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Santi Khamtree, Thanate Ratanawilai, Chayut Nuntadusit & Hormoz Marzbani. (2020) Experimental study and numerical modeling of heat and mass transfer in rubberwood during kiln drying. Heat and Mass Transfer 57:3, pages 453-464.
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Asif Afzal, A. D. Mohammed Samee, R. K. Abdul Razak & M. K. Ramis. (2019) Steady and Transient State Analyses on Conjugate Laminar Forced Convection Heat Transfer. Archives of Computational Methods in Engineering 27:1, pages 135-170.
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Abram S. Dorfman. 2017. Applications of Mathematical Heat Transfer and Fluid Flow Models in Engineering and Medicine. Applications of Mathematical Heat Transfer and Fluid Flow Models in Engineering and Medicine 376 395 .
Donald A. Nield & Adrian BejanDonald A. Nield & Adrian Bejan. 2017. Convection in Porous Media. Convection in Porous Media 57 84 .
Donghyun Kim, Gihun Son & Sungil Kim. (2016) Numerical analysis of convective drying of a moving moist object. International Journal of Heat and Mass Transfer 99, pages 86-94.
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Paolo Caccavale, Maria Valeria De Bonis & Gianpaolo Ruocco. (2016) Conjugate heat and mass transfer in drying: A modeling review. Journal of Food Engineering 176, pages 28-35.
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M. Van Belleghem, M. Steeman, H. Janssen, A. Janssens & M. De Paepe. (2014) Validation of a coupled heat, vapour and liquid moisture transport model for porous materials implemented in CFD. Building and Environment 81, pages 340-353.
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Thijs Defraeye. (2014) Advanced computational modelling for drying processes – A review. Applied Energy 131, pages 323-344.
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M. Van Belleghem, M. Steeman, A. Janssens & M. De Paepe. (2014) Drying behaviour of calcium silicate. Construction and Building Materials 65, pages 507-517.
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Prasanth Anand Kumar Lam & K. Arul Prakash. (2014) A numerical study on natural convection and entropy generation in a porous enclosure with heat sources. International Journal of Heat and Mass Transfer 69, pages 390-407.
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Donald A. Nield & Adrian BejanDonald A. Nield & Adrian Bejan. 2013. Convection in Porous Media. Convection in Porous Media 47 68 .
Thijs Defraeye, Bert Blocken, Dominique Derome, Bart Nicolai & Jan Carmeliet. (2012) Convective heat and mass transfer modelling at air–porous material interfaces: Overview of existing methods and relevance. Chemical Engineering Science 74, pages 49-58.
Crossref
Thijs Defraeye, Bert Blocken & Jan Carmeliet. (2012) Analysis of convective heat and mass transfer coefficients for convective drying of a porous flat plate by conjugate modelling. International Journal of Heat and Mass Transfer 55:1-3, pages 112-124.
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Ram Satish Kaluri & Tanmay Basak. (2011) Entropy generation due to natural convection in discretely heated porous square cavities. Energy 36:8, pages 5065-5080.
Crossref
Chr. Lamnatou, E. Papanicolaou, V. Belessiotis & N. Kyriakis. (2010) Numerical study of the interaction among a pair of blunt plates subject to convective drying – A conjugate approach. International Journal of Thermal Sciences 49:12, pages 2467-2482.
Crossref
Chr. Lamnatou, E. Papanicolaou, V. Belessiotis & N. Kyriakis. (2010) Finite-volume modelling of heat and mass transfer during convective drying of porous bodies – Non-conjugate and conjugate formulations involving the aerodynamic effects. Renewable Energy 35:7, pages 1391-1402.
Crossref
R. Younsi, D. Kocaefe, S. Poncsak, Y. Kocaefe & L. Gastonguay. (2010) A high-temperature thermal treatment of wood using a multiscale computational model: Application to wood poles. Bioresource Technology 101:12, pages 4630-4638.
Crossref
Abram Dorfman & Zachary Renner. (2009) Conjugate Problems in Convective Heat Transfer: Review. Mathematical Problems in Engineering 2009, pages 1-27.
Crossref
R. Younsi, D. Kocaefe, S. Poncsak, Y. Kocaefe & L. Gastonguay. (2008) CFD modeling and experimental validation of heat and mass transfer in wood poles subjected to high temperatures: a conjugate approach. Heat and Mass Transfer 44:12, pages 1497-1509.
Crossref
Nima Amanifard & Akbar Khodaparast Haghi. (2008) A numerical study on drying of porous media. Korean Journal of Chemical Engineering 25:2, pages 191-198.
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. (2008) NUMERICAL AND EXPERIMENTAL VALIDATION OF THE TRANSIENT HEAT AND MASS TRANSFER DURING HEAT TREATMENT OF PINE WOOD†. International Journal of Modelling and Simulation 28:2.
Crossref
R. Younsi, D. Kocaefe, S. Poncsak & Y. Kocaefe. (2007) Computational modelling of heat and mass transfer during the high-temperature heat treatment of wood. Applied Thermal Engineering 27:8-9, pages 1424-1431.
Crossref
Shohel Mahmud & Roydon Andrew Fraser. (2004) Conjugate heat transfer inside a porous channel. Heat and Mass Transfer 41:6, pages 568-575.
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R.J Goldstein, E.R.G Eckert, W.E Ibele, S.V Patankar, T.W Simon, T.H Kuehn, P.J Strykowski, K.K Tamma, A Bar-Cohen, J.V.R Heberlein, J.H Davidson, J Bischof, F.A Kulacki, U Kortshagen & S Garrick. (2001) Heat transfer: a review of 1998 literature. International Journal of Heat and Mass Transfer 44:2, pages 253-366.
Crossref

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