Geophysical characterization of soil contamination - field and laboratory studies for an investigation program in Nepal.

Research output: ThesisDoctoral Thesis

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@phdthesis{f5d6ebb3f0bf42068299e05ff5d1e1e3,
title = "Geophysical characterization of soil contamination - field and laboratory studies for an investigation program in Nepal.",
abstract = "Widespread pollution of vadose and saturated zones worldwide raised a concern to find an efficient and sustainable noninvasive methodology for pollution characterization. Geophysical field and laboratory methods including available well logging techniques have been tested in order to develop a methodology for noninvasive characterization; tests are combined with laboratory measurements and model calculations in order to demonstrate the sensitivity. Induced polarization (IP), chargeability soundings and 2d resistivity imaging results were indicative, if the contaminated layer introduces a resistivity anomaly. Spectral Induced Polarization (SIP) imaging combined with the laboratory investigations of soil samples can apparently distinguishes a contaminated body. In addition, soil samples were artificially contaminated and their electrical behavior was studied in the low frequency range 10-3 to 103 Hz. Due to the effect of organic contamination, the real part of conductivity increases immediately after the mixing with the contaminants. The imaginary part decreased due to contamination. As a new result it was observed, that the clay organic reaction process is controlled directly by the organic carbon content. Thus, a combination of conventional field investigation and sample analysis with a methodic set of complex resistivity or conductivity measurements gives a more detailed picture of the contamination and the contamination controlling processes.",
keywords = "Kontamination, SIP Methode, {\"O}l, contamination, SIP, oil",
author = "Bhandari, {Rajendra Prasad}",
note = "embargoed until null",
year = "2006",
language = "English",

}

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TY - BOOK

T1 - Geophysical characterization of soil contamination - field and laboratory studies for an investigation program in Nepal.

AU - Bhandari, Rajendra Prasad

N1 - embargoed until null

PY - 2006

Y1 - 2006

N2 - Widespread pollution of vadose and saturated zones worldwide raised a concern to find an efficient and sustainable noninvasive methodology for pollution characterization. Geophysical field and laboratory methods including available well logging techniques have been tested in order to develop a methodology for noninvasive characterization; tests are combined with laboratory measurements and model calculations in order to demonstrate the sensitivity. Induced polarization (IP), chargeability soundings and 2d resistivity imaging results were indicative, if the contaminated layer introduces a resistivity anomaly. Spectral Induced Polarization (SIP) imaging combined with the laboratory investigations of soil samples can apparently distinguishes a contaminated body. In addition, soil samples were artificially contaminated and their electrical behavior was studied in the low frequency range 10-3 to 103 Hz. Due to the effect of organic contamination, the real part of conductivity increases immediately after the mixing with the contaminants. The imaginary part decreased due to contamination. As a new result it was observed, that the clay organic reaction process is controlled directly by the organic carbon content. Thus, a combination of conventional field investigation and sample analysis with a methodic set of complex resistivity or conductivity measurements gives a more detailed picture of the contamination and the contamination controlling processes.

AB - Widespread pollution of vadose and saturated zones worldwide raised a concern to find an efficient and sustainable noninvasive methodology for pollution characterization. Geophysical field and laboratory methods including available well logging techniques have been tested in order to develop a methodology for noninvasive characterization; tests are combined with laboratory measurements and model calculations in order to demonstrate the sensitivity. Induced polarization (IP), chargeability soundings and 2d resistivity imaging results were indicative, if the contaminated layer introduces a resistivity anomaly. Spectral Induced Polarization (SIP) imaging combined with the laboratory investigations of soil samples can apparently distinguishes a contaminated body. In addition, soil samples were artificially contaminated and their electrical behavior was studied in the low frequency range 10-3 to 103 Hz. Due to the effect of organic contamination, the real part of conductivity increases immediately after the mixing with the contaminants. The imaginary part decreased due to contamination. As a new result it was observed, that the clay organic reaction process is controlled directly by the organic carbon content. Thus, a combination of conventional field investigation and sample analysis with a methodic set of complex resistivity or conductivity measurements gives a more detailed picture of the contamination and the contamination controlling processes.

KW - Kontamination

KW - SIP Methode

KW - Öl

KW - contamination

KW - SIP

KW - oil

M3 - Doctoral Thesis

ER -