Litcius/Paper detail

A Novel Heat Pulse Method in Determining “Effective” Thermal Properties in Frozen Soil

Xiaolong Wu, Ying Zhao

2024Water Resources Research83 citationsDOIOpen Access PDF

Abstract

Abstract Accurate and fast measurements of thermal properties are frequently required for characterizing the heat‐water dynamics in frozen soil. Measuring the thermal properties of frozen soil without inducing ice thaw has proven challenging with conventional heat pulse (HP) methods. In this study, based on an Infinite Line Source (ILS) semi‐analytical model that applies a constant temperature lower than the freezing point at the heat source to prevent the initiation of ice thaw in the frozen soil, we propose a novel HP‐based approach to measure thermal properties, applicable at temperatures below or above 0°C. Laboratory experiments and numerical modeling were utilized to validate the applicability of the approach and optimization strategies of the measurement. We found that the proposed HP‐based approach effectively maintained the maximum spatial temperature below the freezing point and therefore estimated the bulk thermal properties of quartz sand and ice contents. An optimized measurement strategy was proposed to monitor the temperature variations 2–4 cm away from the center of the heat probe after 60 s. This progress can largely facilitate the determination of the thermal properties of multi‐phase and ‐component frozen soil such as thermal conductivity, heat flux, and ice content in cold areas across soil science, hydrology, engineering, and climate science.

Topics & Concepts

ThermalMaterials sciencePulse (music)Environmental scienceSoil scienceGeotechnical engineeringGeologyThermodynamicsEngineeringPhysicsElectrical engineeringDetectorClimate change and permafrostSoil and Unsaturated FlowGeothermal Energy Systems and Applications
A Novel Heat Pulse Method in Determining “Effective” Thermal Properties in Frozen Soil | Litcius