Abstract
This paper presents quantitative data from a field test on a new type of energy pile, called a displacement cast in situ energy pile. The test pile was installed in a multilayered soft soils and subjected to a continuous cooling for 3 months, with no mechanical load. Afterwards, the pile was loaded to a specific target of 20 or 60 % of its calculated ultimate bearing capacity and then subjected to up to five thermal cycles. Under zero mechanical load, the results revealed that the compressive/tensile stresses coexist along the pile. Under low mechanical load (20 %), thermal cycles induced irreversible residual contractive strains and stresses as well as a limited pile head settlement. Under high mechanical load (60 %) and extreme operating conditions, i.e., negative temperatures which could have indicated a frozen interface, further irreversible settlements observed at the end of this test. Mechanical pile tests however indicated no impact of stress history (including the freezing test) on the shaft resistance and the overall pile-bearing capacity.
| Original language | English |
|---|---|
| Article number | 122693 |
| Number of pages | 15 |
| Journal | Renewable Energy |
| Volume | 244 |
| DOIs | |
| Publication status | Published - 2025 |
Keywords
- Bearing capacity
- Energy pile
- Full-scale field tests
- Long-term monotonic cooling conditions
- Thermo-mechanical response
