Litcius/Paper detail

Development and validation of a method to predict the soil thermal conductivity using thermal piezocone penetration testing (T-CPTU)

Xiaoyan Liu, Surya Sarat Chandra Congress, Guojun Cai, Lulu Liu, Songyu Liu, Anand J. Puppala, Wenwei Zhang

2021Canadian Geotechnical Journal36 citationsDOI

Abstract

A new in situ thermal piezocone penetration test (T-CPTU) system is developed to determine the thermal properties of soil. It is expected to overcome most of the shortcomings observed in existing in situ test techniques. Based on Fourier's heat conduction equation and pore pressure dissipation theoretical equation, a method for calculating the thermal conductivity, namely the predicted temperature method, was proposed. The accuracy of the T-CPTU probe testing process and thermal conductivity calculation results were verified by numerical simulation, laboratory large-scale model tank tests, and thermal needle tests. Finally, the field data of T-CPTUs at three sites in Nanjing, China, were collected and compared with the laboratory thermal needle tests. The results indicated that the thermal conductivities obtained using T-CPTU were accurate and closer to those of laboratory thermal needle tests for most soils. The thermal conductivities of the undisturbed soil samples measured in the laboratory were lower than those obtained by T-CPTU.

Topics & Concepts

Geotechnical engineeringPenetration testThermal conductivityThermalThermal conductionSoil testPenetration (warfare)DissipationSoil waterMaterials scienceGeologyEngineeringSoil scienceThermodynamicsComposite materialPhysicsOperations researchSubgradeGeothermal Energy Systems and ApplicationsSoil and Unsaturated FlowClimate change and permafrost