Thermohydraulic Responses of Unsaturated Sand around a Model Energy Pile

AbstractThis paper examines the effects of monotonic and cyclic temperature changes of a model energy pile (diameter=25  mm, length=264  mm) on the variations in temperature and volumetric water content of surrounding unsaturated sand. Water flowed away from the pile during heating to 36°C and towar...

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Bibliographic Details
Published in:Journal of geotechnical and geoenvironmental engineering 2021-10, Vol.147 (10)
Main Authors: Faizal, Mohammed, Bouazza, Abdelmalek, McCartney, John S
Format: Article
Language:English
Subjects:
Cooling
Cycles
Diameters
Distance
Drying
Energy
Heating
Moisture content
Piles
Sand
Saturation
Soil
Soil stabilization
Soil temperature
Soil water
Soils
Technical Papers
Temperature
Thermal cycling
Time dependence
Unsaturated flow
Water content
Wetting
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Summary:AbstractThis paper examines the effects of monotonic and cyclic temperature changes of a model energy pile (diameter=25  mm, length=264  mm) on the variations in temperature and volumetric water content of surrounding unsaturated sand. Water flowed away from the pile during heating to 36°C and toward the pile during cooling to 5°C, causing soil drying and wetting near the pile, respectively. The change in volumetric water content was time-dependent, nonlinear, and slower than the change in soil temperature and continued to evolve after the soil temperature changes stabilized. Cyclic heating/cooling induced lower thermohydraulic changes in the soil than monotonic heating and cooling. The most significant changes in soil temperatures and volumetric water content were closest to the pile at a radial distance of 20 mm from the edge of the pile and reduced with increasing radial distance for all cases. The largest change in the degree of saturation was near the pile and was up to 6% for monotonic heating. Cyclic heating/cooling induced irreversible cyclic hydraulic responses near the pile with consecutive thermal cycles and caused a permanent reduction in the soil volumetric water content. However, these irreversible cyclic effects were dominant at a radius of 20 mm and reduced with increasing radial distance from the energy pile. The change in volumetric water content was time-dependent, indicating that the ratio of heating to cooling times during cyclic heating/cooling will have a significant effect on the reversibility of hydraulic responses under temperature cycles.
ISSN:1090-0241
1943-5606
DOI:10.1061/(ASCE)GT.1943-5606.0002640