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Book cover for Insulation Materials: Testing and Applications, 3rd Volume
ASTM Selected Technical Papers
Insulation Materials: Testing and Applications, 3rd VolumeAvailable to Purchase
By
RS Graves
RS Graves
1
R & D Services, Inc.
,
Lenoir City, Tennessee 37771
;
symposium co-chairman and editor
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RR Zarr
RR Zarr
2
National Institute of Standards and Technology
,
Gaithersburg, MD 20899
;
symposium co-chairman and editor
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ISBN-10:
0-8031-2409-0
ISBN:
978-0-8031-2409-7
No. of Pages:
552
DOI:
https://doi.org/10.1520/STP1320-EB
Publisher:
ASTM International
Publication date:
1997
eBook Chapter

Thermal Imbalance in Hot Box Apparatus and In-Situ Measurements Available to Purchase

By
B Bisiol
B Bisiol
1
P. H. D. Student
,
Istituto di Fisica Tecnica, Università degli Studi di Padova
,
35131 Padova,
Italy
.
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,
M Campanale
M Campanale
2
Research scientist
,
Istituto di Fisica Tecnica, Università degli Studi di Padova
,
35131 Padova,
Italy
.
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,
F De Ponte
F De Ponte
3
Professor
,
Istituto di Fisica Tecnica, Università degli Studi di Padova
,
35131 Padova,
Italy
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,
L Moro
L Moro
2
Research scientist
,
Istituto di Fisica Tecnica, Università degli Studi di Padova
,
35131 Padova,
Italy
.
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Doi:
https://doi.org/10.1520/STP12270S
Page Count:
19
  • Published:
    1997

Starting from the measurement principle for the determination of thermal resistance of a building element in the laboratory (guarded hot box method) and in-situ, possible testing errors are considered, in particular those due to temperature nonuniformity and imbalance between the metering and guard section. Almost all in-situ measurements are carried out in non-steady-state conditions, nevertheless imbalance problems are similar to those of such steady-state test methods as the guarded hot box.

Temperature non-uniformity on the surfaces of the specimen generates an uncertainty in the definition of the surface temperature itself, but, as a consequence, there is an associated potential temperature imbalance.

The scope of this work is to verify the semi-empirical expressions introduced in two documents of the European Committee for Standardization (CEN, Comité Européen de Normalisation) with those for guarded hot plate apparatus, analytically obtained and experimentally verified by Woodside and those analytically obtained for guarded hot box apparatus. Next, the application of the CEN expression to assess the effect of temperature non-uniformities was checked: for this purpose some homogeneous and layered structures have been analysed by the finite difference method.

Keywords:
thermal resistance, building components, guarded hot box method, in-situ measurement, finite difference method

References

1.
ISO 8990:
1994
,
Thermal Insulation — Determination of steady-state thermal transmission properties — Calibrated and guarded hot box
.
2.
prEN 1934:
1995
,
Masonry — Determination of thermal resistance — Hot box method using heat flow meter
.
3.
CEN/TC 89 N 90,
Building Components and Elements — In situ measurement of the Surface-to-Surface Thermal Resistance
.
4.
Baba
,
T.
,
Ono
,
A.
,
Hattori
,
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,
Analysis of operational error of heat flux transducers placed on wall surfaces
,
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,
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,
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, pp. 1399–1401.
5.
Bales
,
E.
,
Bomberg
,
M.
,
Courville
,
G.
, editors,
Building Applications of Heat Flow Transducers
, ASTM STP 885,
ASTM
,
Philadelphia
,
1985
.
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Search ADS
 
6.
Bomberg
,
M.
,
Solvason
,
K. R.
,
Discussion of heat flow meter apparatus and transfer standards used for error analysis
, in:
Guarded hot plate and heat flow meter technology
, ASTM STP 879,
ASTM
,
Philadelphia
,
1985
.
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Search ADS
 
7.
IMEKO workshop proceedings on Heat Flux Measurements
,
Budapest
, April 23–25, 1986,
OMIKK Technoinform
,
1986
. Available at the IMEKO Secretariat, POB 457, H-1371 Budapest.
8.
Standaert
,
P.
,
Numerical Analysis Operating Errors with Surface Mounted Heat Flux Sensors
, Report available at the Belgian Prime Minister Services,
Policy of Science
, Bruxelles,
1987
.
9.
Trethoven
,
H.
,
Measurement errors with surface mounted heat flux sensors
.
Building and environment
 0360-1323 
21
,
1986
, pp. 41–56.
10.
Woodside
,
W.
,
Deviations from One-Dimensional Heat Flow in Guarded Hot-Plate Measurements
,
Rev. Sci. Instrum.
 0034-6748,
28
,
1957
, pp. 1033–1037.
11.
Woodside
,
W.
,
Wilson
,
A. G.
,
Imbalance errors in Guarded Hot-Plate Measurements
, ASTM STP 217,
ASTM
,
Philadelphia
,
1957
, pp. 32–48.
12.
prEN 1946-4,
Building products and components — Criteria for the assessment of laboratories performing heat transfer property measurement — Part 4: Measurement by hot box methods
.
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