Thermally Developing Forced Convection in a Porous Medium Occupied by a Rarefied Gas: Parallel Plate Channel or Circular Tube with Walls at Constant Heat Flux

被引：32

作者：

Kuznetsov, A. V. ^{[1
]}

Nield, D. A. ^{[2
]}

机构：

[1] N Carolina State Univ, Dept Mech & Aerosp Engn, Raleigh, NC 27695 USA

[2] Univ Auckland, Dept Engn Sci, Auckland 1142, New Zealand

来源：

TRANSPORT IN POROUS MEDIA | 2009年 / 76卷 / 03期

关键词：

Forced convection; Thermal development; Rarefied gas; Graetz problem; Parallel plate channel and circular tube; GASEOUS SLIP-FLOW; DUCT; NONEQUILIBRIUM; TEMPERATURE; CONDUCTION;

D O I：

10.1007/s11242-008-9250-8

中图分类号：

TQ [化学工业];

学科分类号：

0817 ;

摘要：

An adaptation of the classical Graetz methodology is applied to investigate the thermal development of forced convection in a parallel plate channel or a circular tube filled by a porous medium saturated by a rarefied gas, with walls held at constant heat flux. The Brinkman model is employed. The analysis leads to expressions for the local Nusselt number Nu as functions of the dimensionless longitudinal coordinate and the Darcy number. It is found that an increase in the velocity slip coefficient generally increases Nu by a small or moderate amount (but the circular tube at large Darcy number is an exception) while an increase in the temperature slip coefficient reduces Nu by a more substantial amount. These trends are uniform as the longitudinal coordinate varies.

引用

页码：345 / 362

页数：18

共 50 条

[1] Thermally Developing Forced Convection in a Porous Medium Occupied by a Rarefied Gas: Parallel Plate Channel or Circular Tube with Walls at Constant Heat Flux
A. V. Kuznetsov
D. A. Nield
[J]. Transport in Porous Media, 2009, 76 : 345 - 362
[2] Thermally Developing Forced Convection in a Porous Medium Occupied by a Rarefied Gas: Parallel Plate Channel or Circular Tube with Walls at Constant Heat Flux (vol 76, pg 345, 2009)
Kuznetsov, A. V.
Nield, D. A.
[J]. TRANSPORT IN POROUS MEDIA, 2010, 85 (02) : 657 - 658
[3] Thermally developing forced convection in a porous medium: Parallel-plate channel or circular tube with walls at constant heat flux
Nield, DA
Kuznetsov, AV
Xiong, M
[J]. JOURNAL OF POROUS MEDIA, 2003, 6 (03) : 203 - 212
[4] Modification to ‘Forced Convection with Slip-Flow in a Channel or Duct Occupied by a Hyper Porous Medium Saturated by a Rarefied Gas’, Transport in Porous Media, 64, 161–170, 2006 and Thermally Developing Forced Convection in a Porous Medium Occupied by a Rarefied Gas: Parallel Plate Channel or Circular Tube with Walls at Constant Heat Flux, Transport in Porous Media, 76, 345–362, 2009
S. M. H. Hashemi
S. A. Fazeli
[J]. Transport in Porous Media, 2010, 85 : 653 - 655
[5] Thermally developing forced convection in a porous medium: Parallel-plate channel or circular tube with isothermal walls
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[J]. JOURNAL OF POROUS MEDIA, 2004, 7 (01) : 19 - 27
[6] Corrigendum to 'Forced Convection with Slip-Flow in a Channel Occupied by a Hyperporous Medium Saturated by a Rarefied Gas', Transport in Porous Media, 64, 161-170, 2006, and 'Thermally Developing Forced Convection in a Porous Medium Occupied by a Rarefied Gas: Parallel Plate Channel or Circular Tube with Walls at Constant Heat Flux', Transport in Porous Media, 76, 345-362, 2009
Kuznetsov, A.V.
Nield, D.A.
[J]. Transport in Porous Media, 2010, 85 (02) : 657 - 658
[7] Modification to 'Forced Convection with Slip-Flow in a Channel or Duct Occupied by a Hyper Porous Medium Saturated by a Rarefied Gas', Transport in Porous Media, 64, 161-170, 2006 and Thermally Developing Forced Convection in a Porous Medium Occupied by a Rarefied Gas: Parallel Plate Channel or Circular Tube with Walls at Constant Heat Flux, Transport in Porous Media, 76, 345-362, 2009
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[J]. TRANSPORT IN POROUS MEDIA, 2010, 85 (02) : 653 - 655
[8] Effects of porous medium filling on thermally developing forced convection in a parallel plate channel
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[9] Forced Convection with Counterflow in a Circular Tube Occupied by a Porous Medium
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[10] Thermally developing forced convection in a porous medium: parallel plate channel with walls at uniform temperature, with axial conduction and viscous dissipation effects
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