Litcius/Paper detail

Cyclic t-z model for the long-term thermomechanical analysis of energy piles

Huafu Pei, Huaibo Song, Chao Zhou, Qing Yang, Da Zhun Xiao

2022Canadian Geotechnical Journal15 citationsDOI

Abstract

Many elastoplastic and nonlinear models have simulated the long-term behavior of energy piles under cyclic thermomechanical loads. Although they considered the strain–stress hysteretic relationship at the pile–soil interface, the interface strength was assumed independent of the number of thermomechanical cycles. This simplification may cause errors in predicting the long-term responses of energy piles. Therefore, we proposed a cyclic t-z model for the long-term thermomechanical analysis of an energy pile. Here, the interface strength of the model changes with the cycle number of thermomechanical loads. In addition, the accumulation of irreversible deformation at the pile–soil interface can be modeled. Moreover, the cyclic performance of interface shear tests and the long-term behavior of an in situ energy pile were simulated. Comparisons between the measured and simulated results indicated several vital aspects of the energy pile–soil interaction, including strength degradation, strain ratcheting phenomenon of the interface, and long-term pile responses under cyclic thermomechanical loading. Furthermore, numerical simulations were used to evaluate the effects of model parameters on the long-term behavior of energy piles under thermomechanical loads.

Topics & Concepts

PileGeotechnical engineeringTerm (time)Materials scienceStructural engineeringInterface (matter)Nonlinear systemStrain energyDeformation (meteorology)MechanicsComposite materialFinite element methodEngineeringPhysicsCapillary actionCapillary numberQuantum mechanicsSoil and Unsaturated FlowGeothermal Energy Systems and ApplicationsGeotechnical Engineering and Soil Mechanics