A framework for understanding energy pile behaviour

Proceedings of the Institution of Civil Engineers: Geotechnical Engineering

Volumn 166, Issue 2, 2013, Pages 170-177

  Bourne Webb, Peter J ^a   Amatya, Binod ^b   Soga, Kenichi ^c  

^a Geotechnical Engineer   (Portugal)

^b CH2M HILL   (United States)

^c UNIVERSITY OF CAMBRIDGE   (United Kingdom)

Author keywords

Piles and piling; Renewable energy; Thermal effects

Indexed keywords

DEGREE OF ASYMMETRY; ENERGY PILES; FIELD TEST; FOUNDATION MATERIALS; NATURAL VARIATION; PILES AND PILING; RENEWABLE ENERGIES; SURROUNDING SOILS;

GEOTECHNICAL ENGINEERING; THERMAL EFFECTS;

PILES;

NUMERICAL MODEL; PILE; PILE RESPONSE; RENEWABLE RESOURCE; SOIL-STRUCTURE INTERACTION; TEMPERATURE EFFECT; THERMOMECHANICS;

EID: 84885000834     PISSN: 13532618     EISSN: 17518563     Source Type: Journal    
DOI: 10.1680/geng.10.00098     Document Type: Article

References (4)

1. Amis T, Bourne-Webb P, Davidson C, Amatya B and Soga K (2008) The effects of heating and cooling energy piles under working load at Lambeth College, UK. Proceedings of the 33rd Annual and 11th International Conference of the Deep Foundations Institute, New York, NY, USA.
2. Bourne-Webb P, Amatya B, Soga K et al. (2009) Energy pile test at Lambeth College, London: Geotechnical and thermodynamic aspects of pile response to heat cycles. Géotechnique 59(3): 237-248.
3. Brandl H (1998) Energy piles and diaphragm walls for heat transfer from and into the ground. Proceedings of the 3rd International Geotechnical Seminar, Deep Foundations on Bored and Auger Piles (BAP III), University of Ghent, Ghent, Belgium, vol. 1, pp. 37-60.
4. Laloui L, Nuth M and Vulliet L (2006) Experimental and numerical investigations of the behaviour of a heat exchanger pile. International Journal of Numerical and Analytical Methods in Geomechanics 30(8): 763-781.