Litcius/Paper detail

A review and evaluation of thermal conductivity models of saturated soils

Jiaming Wang, Hailong He, Min Li, Miles Dyck, Bingcheng Si, Jialong Lv

2020Archives of Agronomy and Soil Science42 citationsDOI

Abstract

Thermal conductivity of saturated soil (λsat) is a critical parameter for environmental and engineering applications. A wide variety of models used to predict λsat have been presented in the literature, but there is a lack of systematic evaluation of their performance. The objective of this study was to evaluate the performance of available λsat models with a compiled dataset containing λsat measurements from various soil types. A total of 52 models, including 14 theoretical models, 10 semi-empirical models and 28 empirical models, were assessed using a large dataset consisting of more than 295 measurements on 168 soils from 23 studies. The results showed that none of the empirical models gave satisfactory estimates of λsat. One semi-empirical model (i.e. LK1926II or the geometric mean model) and seven theoretical models (i.e. MA1951, DV1963, KT1984, KT2007-TV18, HG1986, CS2010, and TV2015) satisfactorily modeled λsat of almost all soil types with Nash–Sutcliffe Efficiency > 0.8 and RMSE < 0.35 W m−1 °C. The geometric mean model (i.e. LK1926II) was the most parsimonious model with a high degree of predictive power.

Topics & Concepts

Empirical modellingSoil waterSoil scienceGeometric meanThermal conductivityMathematicsMean squared errorStatisticsEconometricsEnvironmental scienceThermodynamicsComputer sciencePhysicsSimulationGeothermal Energy Systems and ApplicationsSoil and Unsaturated FlowHygrothermal properties of building materials