R.W.O. Soppe scite author profile

Capacitance probe sensors are an attractive electromagnetic technique for estimating soil water content. There is concern, however, about the influence of soil salinity and soil temperature on the sensors. We present an electric circuit model that relates the sensor frequency to the permittivity of the medium and that is able to correct for dielectric losses due to ionic conductivity and relaxation. The circuit inductance L is optimized using sensor readings in a modified setup where ceramic capacitors replace the sensor's capacitance plates. The three other parameters in the model are optimized using sensor readings in a range of nonconductive media with different permittivities. The geometric factor for the plastic access tube gp is higher than the geometric factor for the medium gm, indicating that most of the electromagnetic field does not go beyond the access tube. The effect of ionic conductivity on the sensor readings is assessed by mixing salts in three of the media. The influence is profound. The sensor frequency decreases with increasing conductivity. The effect is most pronounced for the medium with the lowest permittivity. The circuit model is able to correct for the conductivity effect on the sensors. However, as the dielectric losses increase, the frequency becomes relatively insensitive to permittivity and small inaccuracies in the measured frequency or in the sensor constants result in large errors in the calculated permittivity. Calibration of the capacitance sensors can be simplified by fixing two of the constants and calculating the other two using sensor readings in air and water.

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Calibration of Capacitance Probe Sensors in a Saline Silty Clay Soil

Kelleners¹,

Soppe²,

Ayars³

et al. 2004

Soil Science Soc of Amer J

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Capacitance probe sensors are a popular electromagnetic method of measuring soil water content. However, there is concern about the influence of soil salinity on the sensor readings. In this study capacitance sensors are calibrated for a saline silty clay soil. An electric circuit model is used to relate the sensor's resonant frequency F to the permittivity (ε) of the soil. The circuit model is able to account for the effect of dielectric losses on the resonant frequency. Dielectric mixing models and empirical models are used to relate the permittivity to the soil water content (θ). The results show that the electric circuit model does not fit the F–ε(θ) data if the calibrated bulk electrical conductivity (EC) model is used. The dielectric losses are overestimated. Increasing the exponent c in the tortuosity factor of the bulk EC model and thereby lowering the bulk EC and the dielectric losses improves the performance of the model. Measured and calculated volumetric water contents compare reasonably well (R2 = 0.884). However, only 73 out of 88 data points can be described. The rejected points are invariably at high water contents where the high dielectric losses result in the sensor frequency being insensitive to ε(θ).

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Thermal-Infrared Technology for Local and Regional Scale Irrigation Analyses in Horticultural Systems

Bastiaanssen¹,

Pelgrum²,

Soppe³

et al. 2008

Acta Hortic.

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Shallow Groundwater Management to Reduce Excess Drainage Water Production in Arid and Semi-Arid Irrigated Areas

Soppe¹,

Ayars²,

Shouse³

et al. 2001

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R.W.O. Soppe

Calibration of Capacitance Probe Sensors using Electric Circuit Theory

Calibration of Capacitance Probe Sensors in a Saline Silty Clay Soil

Thermal-Infrared Technology for Local and Regional Scale Irrigation Analyses in Horticultural Systems

Shallow Groundwater Management to Reduce Excess Drainage Water Production in Arid and Semi-Arid Irrigated Areas

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