The In the frame of extending the renewable energy systems, the use of the shallow geological bedrock below the houses is used for the seasonal heat storage purposes. Thus, the knowledge of the thermophysical properties of the soft clay loam materials present in the bedrock is important. On the basis of the known thermal diffusivity, thermal conductivity and specific heat of the materials around the energetic needle, one can calculate the time dependency of the heat dissipated and transferred into the surrounding. This allows calculating the temperature maps that can specify in more detail the heat penetration depth during the seasonal storage and pumping out of the heat accumulated during the year seasons. The aim is to optimize the efficiency of the system. The clay loams in the free nature contain high level of the moisture and thus have high values of specific heat. The pulse transient method was used to get the thermophysical parameters of these materials. Specimens were drilled out from the bedrock at depths 50, 150 and 250cm from the surface. The measured values of equilibrium sorption moisture show that obtained materials are very different. In the paper we show the possible influence of the redistribution of water content during the shooting of the heat pulse. The water redistribution deforms the temperature response. This effect was avoided by lowering the heat pulse power to minimal values that still allows the evaluation of the measurement.

Topics
Renewable energy, Thermal conductivity, Thermodynamic properties, Materials properties
1.
Ľ.
Kubičár
, “Book, Pulse method of measuring basic thermophysical parameters”. In
Comprehensive Analytical Chemistry
, Vol.
XII
: Thermal Analysis: Part E. edited by
G.
Svehla
, (
Elsevier
,
1990
).
Google Scholar
 
2.
Ľ.
Kubičár
 and
V.
Boháč
, “Review of several dynamic methods of measuring thermophysical parameters”, in
24th Int. Conf. on Thermal Conductivity / 12th Int. Thermal Expansion Symposium, conference proceedings
, edited by
P.S.
Gaal
 and
D.E.
Apostolescu
. (
Lancaster: Technomic Publishing Company
,
Pittsburgh – USA
,
1999
), p.
135
149
.
Google Scholar
 
3.
www.transientms.com (producer of the measurement chamber and electronic unit RTLab).
4.
V.
Boháč
, et al.,
AIP Conference Proceedings
1752
,
040002
(
2016
).
https://doi.org/10.1063/1.4955233
Google Scholar
Crossref
Search ADS
 
5.
V.
Boháč
, et al., “
The progress in development of new models for pulse transient method
”, in
THERMOPHYSICS 2007
, October 11-12, 2007,
proceedings of the 12ᵗʰ Meeting of the Thermophysical Society, Working Group of the Slovak Physical Society
, edited by
Jozef
Leja.
 (
Vydavateľstvo STU
,
Bratislava
2007
, ISBN 978-80-227-2746-4), pp.
24
33
.
Google Scholar
 
6.
V.
Boháč
, et al., “
Development of a new model for the pulse transient technique
”, in
MEASUREMENT 2009
,
Proceedings of 7th Int. conference on Measurement, Smolenice
, Edited by
M.
Tyšler
,
J.
Maňka
, and
V.
Witkovský
, (
©2009 Institute of Measurement Science, Slovak Academy of Science
, ISBN 978-80-969672-1-6), pp.
278
281
7.
V.
Boháč
, et al., “
Optimisation methodology for the pulse transient method and its application at the measurement of thermophysical properties of materials
”, in
THERMOPHYSIC 2005
,
proceedings of the 10ᵗʰ Meeting of the Thermophysical Society, Working Group of the Slovak Physical Society
, Kočovce Oct. 12-13 2005, Edied by
P.
Matiašovský
,
O.
Koronthályová
, (
© ICA SAS Bratislava
,
2005
), pp.
57
71
Google Scholar
 
8.
V.
Boháč
, et al., “
Uncertainty analysis of pulse transient method for cylindrical samples
”,
In MEASUREMENT 2013
, In
proceedings of the 9th International Conference on Measurement, Smolenice 2013
, edited by
Jan
Maňka
,
Milan
Tyšer
,
Viktor
Witkovský
,
Ivan
Frollo
, (ISBN 978-80-969-672-5-4), pp.
227
230
.
9.
V.
Boháč
, et al., “
Methodology of parameter estimation of pulse transient method and the use of PMMA as standard reference material
”.
TEMPMEKO 2004
, 22 - 25 June 2004
Dubrovník, Croatia
, In
proceedings of 9th International Symposium on Temperature and Thermal Measurements in Industry and Science
, edited by
Davor
Zvizdic
;
Lovorka Grgec
Bermanec
;
Tomislav
Stasic
;
Tomislav
Veliki
, (
Zagreb : Laboratory for Process Measurement: Faculty of Mechanical Engineering and Naval Architecture
,
2005
), pp.
150
158
.
Google Scholar
 
10.
V.
Boháč
, et al.,
Meas. Sci. Rev.
5
,
98
103
(
2007
).
Google Scholar
 
11.
Ľ.
Kubičár
, et al., “
Reliability of the thermophysical data of PMMA and BK7 obtained by Guarded Hot Plate, Contact Pulse Transient Method, Hot Bridge Method, FLASH Method, Heat Wave Method, and DSC
”,
ITCC 2009
, In
Conference proceedings 30th International Thermal Conductivity Conference/18th International Thermal Expansion Symposium Location: Anter Corp
,
Pittsburgh, PA
Date: AUG 29-SEP 02,
2009
, (THERMAL CONDUCTIVITY 30:THERMAL EXPANSION 18 Book Series: THERMAL CONDUCTIVITY Volume: 30 Pages: 936-936 Published: 2010) pp. 230-238
Google Scholar
 
12.
Ľ.
Kubičár
 and
V.
Boháč
,
High Temp.-High Press.
34
,
135
146
(
2002
).
https://doi.org/10.1068/htwu134
Google Scholar
Crossref
Search ADS
 
13.
V.
Boháč
, et al.,
Meas. Sci. Rev.
11
,
192
197
(
2011
).
https://doi.org/10.2478/v10048-011-0032-z
Google Scholar
Crossref
Search ADS
 
14.
V.
Boháč
, et al., “
Thermophysical properties of natural sandstone measured by pulse transient technique. A new model for cuboid shape samples
”,
THERMOPHYSICS 2010
, 3rd to 5th November 2010, Valtice, Czech Republic,
Conference proceedings of the 15th International Meeting of Thermophysical Society
, edited by
O.
Zmeškal
 (Printed by:
Brno University of Technology, Faculty of Chemistry
,
2010
, ISBN 978-80-214-4166-8), pp.
63
71
.
Google Scholar
 
15.
V.
Boháč
, et al., “
Pulse transient model for finite size of cuboid samples tested on stone materials
”,
THERMOPHYS 2011
,
Conference proceedings of the 16th International Meeting of Thermophysical Society, 2ⁿᵈ to 4ᵗʰ November 2011, Valtice, Czech Republic, (Printed by
:
Brno University of Technology, Faculty of Chemistry
,
2011
, ISBN: 978-80-214-4345-7), pp.
242
248
.
Google Scholar
 
This content is only available via PDF.
© 2018 Author(s).
2018
Author(s)
You do not currently have access to this content.