An experimental technique for measuring the effective thermal conductivity of saturated porous media is presented. The experimental method is based on the transient heating of a semi-infinite cylinder by a constant heat flux at the boundary. The data reduction technique is unique because it avoids determining the effective thermal diffusivity and quantifying the boundary heat flux. The technique is used to measure the effective thermal conductivity of glass-water, glass-air, and steel-air systems. These systems yield solid-fluid conductivity ratios of 1.08, 25.7, and 2400, respectively. The solid phases consist of 3.96mm glass spheres and 14mm steel ball bearings, which give mean porosities of 0.365 and 0.403. In addition, particular attention is paid to assessing experimental uncertainty. Consequently, this study provides data with a degree of precision not typically found the literature.

Issue Section:
Technical Briefs
Keywords:
thermal conductivity, porous materials, thermal diffusivity, glass, water, steel, porosity, data reduction, porous media, effective thermal conductivity, transient measurement technique
Topics:
Glass, Heat flux, Porous materials, Thermal conductivity, Water, Steel, Transients (Dynamics), Fluids, Thermal diffusivity
1.
Aichlmayr
,
H. T.
, and
Kulacki
,
F. A.
, 2006, “
The Effective Thermal Conductivity of Saturated Porous Media
,”
Advances in Heat Transfer
,
G.
Greene
 et al., eds., vol.
39
,
Academic Press
, New York, pp.
377
460
.
2.
Whitaker
,
S.
, 1999,
The Method of Volume Averaging
,
Kluwer Academic Publishers
, Dordrecht.
3.
Lage
,
J. L.
, 1999, “
The Implication of the Thermal Equilibrium Assumption for Surrounding-Driven Steady Conduction Within a Saturated Porous Medium Layer
,”
Int. J. Heat Mass Transfer
0017-9310,
42
(
3
), pp.
447
485
.
4.
Aichlmayr
,
H. T.
, 1999, “
The Effective Thermal Conductivity of Saturated Porous Media
,” Master’s thesis, The University of Minnesota.
5.
Lacroix
,
C.
,
Bala
,
P. R.
, and
Feidt
,
M.
, 1999, “
Evaluation of the Effective Thermal Conductivity in Metallic Porous Media Submitted to Incident Radiative Flux in Transient Conditions
,”
Energy Convers. Manage.
0196-8904,
40
(
15-16
), pp.
1775
1781
.
Crossref
Search ADS
 
6.
Nozad
,
I.
,
Carbonell
,
R. G.
, and
Whitaker
,
S.
, 1985, “
Heat Conduction in Multiphase Systems II Experimental Method and Results for Three-Phase Systems
,”
Chem. Eng. Sci.
0009-2509,
40
(
5
), pp.
857
863
.
Crossref
Search ADS
 
7.
Aichlmayr
,
H. T.
, and
Kulacki
,
F. A.
, 2005, “
On the effective Thermal Conductivity of Saturated Porous Media
,”
Proceedings of the ASME Summer Heat Transfer Conference
,
San Francisco, CA
, July 17–22,
ASME
,
New York
.
8.
Guest
,
P. G.
, 1961,
Numerical Methods of Curve Fitting
,
Cambridge University Press
, New York.
9.
Meyer
,
S. L.
, 1975,
Data Analysis for Scientists and Engineers
,
John Wiley & Sons
, Inc., New York.
10.
Preston
,
F. W.
, 1957, Mechanism of Heat Transfer in Unconsolidated Porous Media at Low Flow Rates, Ph.D. thesis, Pennsylvania State University.
11.
Waddams
,
A. L.
, 1944, “
The Flow of Heat Through Granular Material
,”
J. Soc. Chem. Ind., London
0368-4075, London
63
, pp.
336
340
.
12.
Prasad
,
V.
,
Kladias
,
N.
,
Bandyopadhaya
,
A.
, and
Tian
,
Q.
, 1989, “
Evaluation of Correlations for Stagnant Thermal Conductivity of Liquid-Saturated Porous Beds of Spheres
,”
Int. J. Heat Mass Transfer
0017-9310,
32
(
9
), pp.
1793
1796
.
Crossref
Search ADS
 
13.
Ofuchi
,
K.
, and
Kunii
,
D.
, 1965, “
Heat Transfer Characteristics of Packed Beds With Stagnant Fluids
,”
Int. J. Heat Mass Transfer
0017-9310,
8
(
5
), pp.
749
757
.
Crossref
Search ADS
 
14.
Swift
,
D. L.
, 1966, “
The Thermal Conductivity of Spherical Metal Powders Including the Effect of Oxide Coating
,”
Int. J. Heat Mass Transfer
0017-9310,
9
(
10
), pp.
1061
1074
.
Crossref
Search ADS
 
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 by American Society of Mechanical Engineers
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