On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring

Permafrost covers about 24% of the exposed land in the northern hemisphere and is abundant in various regions in Europe, mainly as mountain permafrost. This type is very sensitive to climate warming, because its temperature is only marginally below the freezing point. In recent years permafrost degr...

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Main Author: Uhlemann, Sebastian
Format: Text
Language:unknown
Published: 2012
Subjects:
Earth Sciences
Glaciology
Physics
permafrost
Online Access:http://nora.nerc.ac.uk/id/eprint/500982/
id ftnerc:oai:nora.nerc.ac.uk:500982
record_format openpolar
spelling ftnerc:oai:nora.nerc.ac.uk:500982 2023-05-15T17:56:39+02:00 On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring Uhlemann, Sebastian 2012-08-03 http://nora.nerc.ac.uk/id/eprint/500982/ unknown Uhlemann, Sebastian. 2012 On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring. ETH Zürich, Department of Earth Sciences, Institute of Geophysics, Masters Thesis, 86pp. Earth Sciences Glaciology Physics Publication - Thesis NonPeerReviewed 2012 ftnerc 2023-02-04T19:36:34Z Permafrost covers about 24% of the exposed land in the northern hemisphere and is abundant in various regions in Europe, mainly as mountain permafrost. This type is very sensitive to climate warming, because its temperature is only marginally below the freezing point. In recent years permafrost degradation frequently caused large rockfall events, which represent a fatal danger for the population in the alpine regions. Therefore, modelling and monitoring of permafrost is becoming a focus of several research groups. This thesis investigates the suitability of capacitive resistivity imaging (CRI) for obtaining supporting information for the different areas of permafrost research, in terms of subsurface characterisation and estimation of temperatures; there is a strong relationship between resistivity and temperature, especially for values below the freezing point. For this purpose numerical simulations of a quasi-static quadrupole over a homogeneous halfspace and a finite rock sample are carried out and intensive laboratory studies on a Tuffeau chalk sample are made. The numerical simulations indicate that dipole combinations employing small dipole separations are prone to error, because the electrodes cannot be considered as point poles and geometric effects become important for small separations. Moreover, the results indicate a higher sensitivity of the imaginary part of the complex transfer impedance to the geometric configuration of the quadrupole than the real part shows. Therefore, the experimental use of the imaginary part is limited to be only qualitative. It is shown, that these results are in accord with previous theoretical estimations. By comparison, the real parts of the complex transfer impedance obtained from numerical simulations and experimental work are found to be consistent, supporting the validity of both estimates. This highlights the benefits of numerical simulations in the evaluation of the properties of the experimental setup. To study the effects of changing sample conditions on the ... Text permafrost Natural Environment Research Council: NERC Open Research Archive
institution Open Polar
collection Natural Environment Research Council: NERC Open Research Archive
op_collection_id ftnerc
language unknown
topic Earth Sciences
Glaciology
Physics
spellingShingle Earth Sciences
Glaciology
Physics
Uhlemann, Sebastian
On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring
topic_facet Earth Sciences
Glaciology
Physics
description Permafrost covers about 24% of the exposed land in the northern hemisphere and is abundant in various regions in Europe, mainly as mountain permafrost. This type is very sensitive to climate warming, because its temperature is only marginally below the freezing point. In recent years permafrost degradation frequently caused large rockfall events, which represent a fatal danger for the population in the alpine regions. Therefore, modelling and monitoring of permafrost is becoming a focus of several research groups. This thesis investigates the suitability of capacitive resistivity imaging (CRI) for obtaining supporting information for the different areas of permafrost research, in terms of subsurface characterisation and estimation of temperatures; there is a strong relationship between resistivity and temperature, especially for values below the freezing point. For this purpose numerical simulations of a quasi-static quadrupole over a homogeneous halfspace and a finite rock sample are carried out and intensive laboratory studies on a Tuffeau chalk sample are made. The numerical simulations indicate that dipole combinations employing small dipole separations are prone to error, because the electrodes cannot be considered as point poles and geometric effects become important for small separations. Moreover, the results indicate a higher sensitivity of the imaginary part of the complex transfer impedance to the geometric configuration of the quadrupole than the real part shows. Therefore, the experimental use of the imaginary part is limited to be only qualitative. It is shown, that these results are in accord with previous theoretical estimations. By comparison, the real parts of the complex transfer impedance obtained from numerical simulations and experimental work are found to be consistent, supporting the validity of both estimates. This highlights the benefits of numerical simulations in the evaluation of the properties of the experimental setup. To study the effects of changing sample conditions on the ...
format Text
author Uhlemann, Sebastian
author_facet Uhlemann, Sebastian
author_sort Uhlemann, Sebastian
title On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring
title_short On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring
title_full On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring
title_fullStr On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring
title_full_unstemmed On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring
title_sort on the suitability of capacitive resistivity imaging (cri) for permafrost monitoring
publishDate 2012
url http://nora.nerc.ac.uk/id/eprint/500982/
genre permafrost
genre_facet permafrost
op_relation Uhlemann, Sebastian. 2012 On the suitability of capacitive resistivity imaging (CRI) for permafrost monitoring. ETH Zürich, Department of Earth Sciences, Institute of Geophysics, Masters Thesis, 86pp.
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