Issue |
MATEC Web Conf.
Volume 103, 2017
International Symposium on Civil and Environmental Engineering 2016 (ISCEE 2016)
|
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Article Number | 07007 | |
Number of page(s) | 7 | |
Section | Geotechnic, Geoenvironment and Geomatic Engineering | |
DOI | https://doi.org/10.1051/matecconf/201710307007 | |
Published online | 05 April 2017 |
Complex Permittivity to Detect Lead in Soil with Various Salt Forms and Combinations
1 Department of Civil Engineering, College of Engineering, Abu Dhabi University, Abu Dhabi, UAE
2 Department of Civil Engineering, Western University, London, Ontario, Canada
* Corresponding author: samer.almartini@adu.ac.ae
The response of soil-water systems to an external electric field can be described as polarization and conduction. Polarization represents the electric charges stored in a material, whereas conduction is the ability of a material to conduct free charges. The combined effects of polarization and conduction can be expressed in terms of complex permittivity. Since the complex permittivity of a soil-water system is a function of soil properties, this research was undertaken to detect soil contamination using the complex permittivity measurements. The system used in this investigation to measure the complex permittivity of a lead contaminated soil consisted of an Automatic Network Analyzer (ANA), a set of coaxial cables, a personal computer (PC) for data processing and a coaxial sample holder. Two sample holders were first used: long holder and short holder. It was found that the short holder can give reliable and close measurement to the long holder. The short holder was later adopted. Soil samples were prepared in the lab and mixed with lead nitrate solutions and with hybrid blend of lead nitrate and lead chloride solutions. The relationship between the complex permittivity and lead concentration was investigated. A chemical analysis of the pore fluids for all lead contaminated soil samples was conducted to trace the presence of lead in soil. It was found that the complex permittivity is affected by lead concentration in soil, as the real part decreased and the imaginary part increased with an increase in lead concentration. Lead was not detected in the soil pore water for the soil tested, which suggested that lead was immobilized by precipitation and the adsorption mechanism.
© The Authors, published by EDP Sciences, 2017
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