Dielectric spectroscopy and application of mixing models describing dielectric dispersion in clay minerals and clayey soils
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González Teruel, Juan Domingo; Jones, Scott B.; Soto Vallés, Fulgencio; Torres Sánchez, Roque; Lebron Robinson, Inmaculada; [et al.]Grupo de investigación
División de Sistemas e Ingeniería ElectrónicaÁrea de conocimiento
Ingeniería del TerrenoIngeniería EléctricaQuímica-FísicaTecnologías del Medio AmbientePatrocinadores
The authors wish to thank Sally Logsdon for supplying the soils from USDA.Realizado en/con
Universidad Politécnica de Cartagena; Utah State University; UK Centre for Ecology and Hydrology; The Volcani CenterFecha de publicación
2020-11-22Editorial
MDPICita bibliográfica
González-Teruel, J.D.; Jones, S.B.; Soto-Valles, F.; Torres-Sánchez, R.; Lebron, I.; Friedman, S.P.; Robinson, D.A. Dielectric Spectroscopy and Application of Mixing Models Describing Dielectric Dispersion in Clay Minerals and Clayey Soils. Sensors 2020, 20, 6678.Revisión por pares
SíPalabras clave
Dielectric sensorsDielectric spectroscopy
Clayey soil
Mixing model
Maxwell–Wagner relaxation
Two-phase modeling
Soil moisture
Resumen
The number of sensors, ground-based and remote, exploiting the relationship between soil dielectric response and soil water content continues to grow. Empirical expressions for this relationship generally work well in coarse-textured soils but can break down for high-surface area and intricate materials such as clayey soils. Dielectric mixing models are helpful for exploring mechanisms and developing new understanding of the dielectric response in porous media that do not conform to a simple empirical approach, such as clayey soils. Here, we explore the dielectric response of clay minerals and clayey soils using the mixing model approach in the frequency domain. Our modeling focuses on the use of mixing models to explore geometrical effects. New spectroscopic data are presented for clay minerals (talc, kaolinite, illite and montmorillonite) and soils dominated by these clay minerals in the 1 MHz–6 GHz bandwidth. We also present a new typology for the way water is held in soils that we ...
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