Comments on “Flow, thermal, and entropy generation characteristics inside a porous channel with viscous dissipation” by S. Mahmud and R.A. Fraser [Int. J. Thermal Sciences 44 (2005) 21–32]

Hooman, K., Merrikh, Ali A. and Ejlali, Arash (2007) Comments on “Flow, thermal, and entropy generation characteristics inside a porous channel with viscous dissipation” by S. Mahmud and R.A. Fraser [Int. J. Thermal Sciences 44 (2005) 21–32]. International Journal of Thermal Sciences, 46 6: 614-616. doi:10.1016/j.ijthermalsci.2007.01.001

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Author Hooman, K.
Merrikh, Ali A.
Ejlali, Arash
Title Comments on “Flow, thermal, and entropy generation characteristics inside a porous channel with viscous dissipation” by S. Mahmud and R.A. Fraser [Int. J. Thermal Sciences 44 (2005) 21–32]
Journal name International Journal of Thermal Sciences   Check publisher's open access policy
ISSN 1290-0729
Publication date 2007-06
Sub-type Editorial
DOI 10.1016/j.ijthermalsci.2007.01.001
Open Access Status File (Author Post-print)
Volume 46
Issue 6
Start page 614
End page 616
Total pages 3
Editor D. Gobin
U. Gross
Y. Bayazitoglu
Place of publication Paris, France
Publisher Elsevier
Language eng
Subject 290501 Mechanical Engineering
Keyword Thermoacoustics
Flow visualization
Second law of thermodynamics
Porous medium
Forced convection
References [1] S. Mahmud, R.A. Fraser, Flow, thermal, and entropy generation characteristics inside a porous channel with viscous dissipation, Int. J. Thermal Sciences 44 (2005) 21-32. [2] D.A. Nield, Forced convection in a parallel plates channel with asymmetric heating, Int. J. Heat Mass Transfer 47 (2004) 5609-5612. [3] D.A. Nield, Private communication, (2005). [4] D.A. Nield, Comments on ‘A new model for viscous dissipation in porous media across a range of permeability values’ by A. K. Al-Hadrami, L. Elliot and D.B. Ingham, Transport Porous Media 55 (2004) 253-254. [5] K. Hooman, A. Ejlali, Second law analysis of laminar flow in a channel filled with saturated porous media: a numerical solution, Entropy 7 (2005) 300-307. [6] D.A. Nield, A.V. Kuznetsov, M. Xiong, Thermally developing forced convection in a porous medium: parallel plate channel with walls at constant temperature, with longitudinal conduction and viscous dissipation effects, Int. J. Heat Mass Transfer 46 (2003) 643-651. [7] D.A. Nield, Resolution of a paradox involving viscous dissipation and nonlinear drag in a porous medium, Transport Porous Media 41 (2000) 349-357. [8] A.K. Al-Hadrami, L. Elliott, D.B. Ingham, A new model for viscous dissipation in porous media across a range of permeability values, Transport Porous Media 53 (2003) 117-122. [9] D.A. Nield, A.V. Kuznetsov, M. Xiong, Effects of viscous dissipation and flow work on forced convection in a channel filled by a saturated porous medium, Transport Porous Media, 56 (2004) 351-367. [10] A. Bejan, Convection Heat Transfer, Wiley, New York, 1984. [11] A. Bejan, Entropy Generation through Heat and Fluid Flow, Wiley, New York, 1982. [12] D.A. Nield, K. Hooman, Comments on "Effects of viscous dissipation on the heat transfer in forced pipe flow. Part 1: Both hydrodynamically and thermally fully developed flow [Energy Conv. Manage. 2005; 46 : 757-769] and Part 2: Thermally developing flow [Energy Conv. Manage. 2005; 46 : 3091-3202]" by O. Aydin, Energy Conversion and Management, 47(2006) 3501-3503 [13] K. Hooman, M. Gorji-Bandpy, Laminar dissipative flow in a porous channel bounded by isothermal parallel plates, Applied Mathematics and Mechanics – English Edition, 26 (2005) 578-593. [14] W.J. Ou, K.C. Cheng, Viscous dissipation effects on thermal entrance region heat transfer in laminar and turbulent pipe flows with uniform wall temperature, AIAA Paper No. 74-743 or ASME Paper No. 74-HT-50, 1974, 1-7. [15] A.A. Ranjbar-Kani, K. Hooman, Viscous dissipation effects on thermally developing forced convection in a porous medium: circular duct with isothermal wall, Int. Comm. Heat Mass Transfer, 31 (2004) 897-907. [16] D.A. Nield, A. Bejan, Convection in Porous Media, 3rd edition, Springer-Verlag, New York, 2006. [17] K. Hooman, A. Pourshaghaghy, A. Ejlali, Effects of viscous dissipation on thermally developing forced convection in a porous saturated circular tube with an isoflux wall, Applied Mathematics and Mechanics – English Edition, 27 (2006) 617-626. [18] D.A. Nield, A.V. Kuznetsov, M. Xiong, Thermally developing forced convection in a porous medium: Circular duct with walls at constant temperature, with longitudinal conduction and viscous dissipation effects, Transport Porous Media, 53 (2003) 331-345. [19] Haji-Sheikh A, Nield DA, Hooman K, Heat transfer in the thermal entrance region for flow through rectangular porous passages, Int. J. Heat Mass Transfer, 49 (2006) 3004-3015. [20] D.A. Nield, A note on a Brinkman-Brinkman forced convection problem, Transport Porous Media, 64 (2006) 185-188.
Q-Index Code CX
Q-Index Status Provisional Code
Institutional Status UQ
Additional Notes This is an author version of a comment originally published as K. Hooman, Ali A. Merrikh and A. Ejlali (2007) Comments on “Flow, thermal, and entropy generation characteristics inside a porous channel with viscous dissipation” by S. Mahmud and R.A. Fraser [Int. J. Thermal Sciences 44 (2005) 21–32], International Journal of Thermal Sciences, 46 (6) : 614-616. doi: 10.1016/j.ijthermalsci.2007.01.001 Original article DOI: 10.1016/j.ijthermalsci.2004.05.001 Copyright 2007 Elsevier. All rights reserved. Single copies only may be downloaded and printed for a user's personal research and study. -- Available online 24 January 2007.

 
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Created: Wed, 28 Mar 2007, 14:43:07 EST by Kamel Hooman on behalf of School of Engineering