Design tools for thermoactive geotechnical systems
Design tools for thermoactive geotechnical systems
This paper presents a review of current design tools used for thermoactive geotechnical systems, along with validation efforts. The capabilities of available analytical methods used for the thermal and thermomechanical design of these systems are evaluated and shortcomings of the existing methods are identified. Although the analytical methods permit accurate prediction of the thermal stress and strain response of thermoactive piles from readily available soil and concrete properties, current shortcomings consist of the ability of the methods to simulate cyclic heating and cooling effects, transient pore water pressure generation and dissipation, and the effects of radial stress changes. Recommendations are provided on how to properly address the current design requirements and the efforts to overcome shortcomings with the development of constitutive relationships from further full scale and laboratory scale experimental studies on thermoactive piles. Furthermore, the need for the development of both simplified analytical tools and advanced finite element models is emphasized. In addition, the existing analytical tools should be validated using field data from recently available case studies of thermoactive piles in varying soil deposits. An urgent need for an extensive design guide for energy geostructures was identified. The guidelines should be targeted towards practitioners and include field observations and measurements, as well as laboratory and numerical studies.
analysis, design, thermal, thermomechanical, energy geostructures
121-129
Bourne-Webb, P.
03e00ab2-4573-4d1c-b1c9-6364e365a885
Pereira, J.-M.
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Bowers, G.A.
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Mimouni, T.
7180786a-b13e-4eef-afda-9ff1bd2a65d9
Loveridge, F.A.
fb5b7ad9-d1b8-40d3-894b-bccedf0e8a77
Burlon, S.
51bb3abf-2791-485f-bf4d-9b81e33395dd
Olgun, C.G.
e1ad2ef2-7e65-4c04-8b89-d57826ebcf51
McCartney, J.S.
c0e7556d-25a7-40e6-aacf-5e5de64a9d2b
Sutman, M.
6686f36e-8766-4e71-95ef-021a47d1f38e
December 2014
Bourne-Webb, P.
03e00ab2-4573-4d1c-b1c9-6364e365a885
Pereira, J.-M.
2a93fda3-105f-4325-95f3-3fead667fcdd
Bowers, G.A.
49d9fafd-0bb3-4609-a66a-8043cfc9dca0
Mimouni, T.
7180786a-b13e-4eef-afda-9ff1bd2a65d9
Loveridge, F.A.
fb5b7ad9-d1b8-40d3-894b-bccedf0e8a77
Burlon, S.
51bb3abf-2791-485f-bf4d-9b81e33395dd
Olgun, C.G.
e1ad2ef2-7e65-4c04-8b89-d57826ebcf51
McCartney, J.S.
c0e7556d-25a7-40e6-aacf-5e5de64a9d2b
Sutman, M.
6686f36e-8766-4e71-95ef-021a47d1f38e
Bourne-Webb, P., Pereira, J.-M. and Bowers, G.A. et al.
(2014)
Design tools for thermoactive geotechnical systems.
DFI Journal: The Journal of the Deep Foundations Institute, 8 (2), .
(doi:10.1179/1937525514Y.0000000013).
Abstract
This paper presents a review of current design tools used for thermoactive geotechnical systems, along with validation efforts. The capabilities of available analytical methods used for the thermal and thermomechanical design of these systems are evaluated and shortcomings of the existing methods are identified. Although the analytical methods permit accurate prediction of the thermal stress and strain response of thermoactive piles from readily available soil and concrete properties, current shortcomings consist of the ability of the methods to simulate cyclic heating and cooling effects, transient pore water pressure generation and dissipation, and the effects of radial stress changes. Recommendations are provided on how to properly address the current design requirements and the efforts to overcome shortcomings with the development of constitutive relationships from further full scale and laboratory scale experimental studies on thermoactive piles. Furthermore, the need for the development of both simplified analytical tools and advanced finite element models is emphasized. In addition, the existing analytical tools should be validated using field data from recently available case studies of thermoactive piles in varying soil deposits. An urgent need for an extensive design guide for energy geostructures was identified. The guidelines should be targeted towards practitioners and include field observations and measurements, as well as laboratory and numerical studies.
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e-pub ahead of print date: 21 December 2014
Published date: December 2014
Keywords:
analysis, design, thermal, thermomechanical, energy geostructures
Organisations:
Infrastructure Group
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Local EPrints ID: 373026
URI: http://eprints.soton.ac.uk/id/eprint/373026
ISSN: 1937-5247
PURE UUID: afc108a5-cadd-449a-b894-0198d61037c5
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Date deposited: 06 Jan 2015 11:28
Last modified: 14 Mar 2024 18:46
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Contributors
Author:
P. Bourne-Webb
Author:
J.-M. Pereira
Author:
G.A. Bowers
Author:
T. Mimouni
Author:
S. Burlon
Author:
C.G. Olgun
Author:
J.S. McCartney
Author:
M. Sutman
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