Estimation on bearing characteristics of a large-diameter and extra-long energy pile under various actions of mechanical and thermal loads

Guangzhe Zhang; Fenglei Du; Tao Wang; Shifeng Lu; Hongliang Jiang; Benyi Cao

doi:10.1139/cgj-2024-0685

Estimation on bearing characteristics of a large-diameter and extra-long energy pile under various actions of mechanical and thermal loads

Guangzhe Zhang, Fenglei Du, Tao Wang, Shifeng Lu, Hongliang Jiang Benyi Cao

Canadian Geotechnical Journal, Vol.63, pp.1-15

2026

: https://doi.org/10.1139/cgj-2024-0685

bearing capacity

Energy pile

Pile settlement

Strain and stress

thermo-mechanical load

Energy piles, combining structural support with ground heat exchange, are increasingly used for sustainable building energy solutions. However, the thermo-mechanical behaviour of large-diameter, extra-long energy piles under real operational conditions remains inadequately understood. This study investigates the bearing characteristics of a 1.5 m diameter, 58.3 m long cast-in-place concrete energy pile installed beneath a liquefied natural gas tank, subjected to staged mechanical and thermal loading. A full-scale in situ experiment was conducted, simulating realistic load conditions, including static mechanical loading, combined thermal-mechanical loading during heating and cooling cycles, and cyclic loading effects. The results indicate that the pile exhibited high heat exchange efficiency, with rates of 115.6 and 130.3 W/m during heating and cooling, respectively. Axial expansion due to thermal loads led to the formation of a neutral plane at approximately-39 m depth, redistributing shaft resistances along the pile. Under heating, negative shaft resistance developed in the upper (-1.5 to-14 m) and lower (-39 to-51 m) parts, while positive resistance was concentrated in the mid-depth. Upon reloading, the negative resistance diminished, demonstrating mechanical dominance in pile behaviour. The pile head settlement reached-11.6 mm under maximum static loading (24 000 kN), with an additional-7.3 mm settlement observed during combined heating-loading. These findings confirm the feasibility of large-diameter energy piles for deep foundations, highlighting their stable thermo-mechanical response and informing future design optimisation for cyclic thermal and mechanical actions.

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Estimation on bearing characteristics of a large-diameter and extra-long energy pile under various actions of mechanical and thermal loads1.41 MB

Author's Accepted Manuscript Open Access

: Estimation on bearing characteristics of a large-diameter and extra-long energy pile under various actions of mechanical and thermal loads
: Guangzhe Zhang (Author) - China Acad Bldg Res, Inst Fdn Engn, Beisanhuan East Rd 30, Beijing 100013, Peoples R China
Fenglei Du (Corresponding Author) - China Acad Bldg Res, Inst Fdn Engn, Beisanhuan East Rd 30, Beijing 100013, Peoples R China
Tao Wang (Author) - China Acad Bldg Res, Inst Fdn Engn, Beisanhuan East Rd 30, Beijing 100013, Peoples R China
Shifeng Lu (Author) - Xi'an Jiaotong University
Hongliang Jiang (Author) - China Acad Bldg Res, Inst Fdn Engn, Beisanhuan East Rd 30, Beijing 100013, Peoples R China
Benyi Cao (Author) - University of Surrey, Mechanical Engineering Sciences
: Canadian Geotechnical Journal, Vol.63, pp.1-15
: Canadian Science Publishing
: 15
: 20/01/2026
: 2026
: 25/08/2025
: Technology Project Plan: 2022-K-111 Ministry of Housing and Urban-Rural Development of the People's Republic of China This work is supported by the Technology Project Plan (2022-K-111) of the Ministry of Housing and Urban-Rural Development of the People's Republic of China.
: 991109994902346; WOS:001672668000001
: Mechanical Engineering Sciences
: English
: Journal article
: Data are available upon request.