In-situ electrical conductivity and permeability of mid-crustal rocks from the KTB drilling : Consequences for high conductive layers in the earth crust

In-situ electrical conductivity and permeability of mid-crustal rocks from the KTB drilling : Consequences for high conductive layers in the earth crust

Freshly cored samples from a microprofile (7011-7013m in depth) of the German Continental Deep Drilling Project (KTB) were taken to measure the complex electrical conductivity σ (1 kHz up to 1 MHz), porosity, BET-surface, permeability and density. The porosity ranged about 1 vol%, while the permeabi...

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Bibliographic Details
Published in:Surveys in geophysics Vol. 19; no. 1; pp. 73 - 85
Main Authors: NOVER, G, HEIKAMP, S, MEURER, H. J, FREUND, D
Format: Journal Article
Language:English
Published: Heidelberg Springer 1998
Springer Nature B.V
Subjects:
Drilling
Earth crust
Earth sciences
Earth, ocean, space
Exact sciences and technology
Geophysics: general, magnetic, electric and thermic methods and properties
Internal geophysics
Permeability
Porosity
Rocks
Sodium chloride
Stratigraphy
Central Europe
Germany
oxides
gneisses
permeability
mica
hydrostatic pressure
enrichment
cleavage
carbon
ilmenite
sheet silicates
silicates
cracks
magnitude
thin sections
density
Europe
porosity
deep drilling
pressure
metamorphic rocks
sections
in situ
crust
depth
KTB
electrical conductivity
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Summary:Freshly cored samples from a microprofile (7011-7013m in depth) of the German Continental Deep Drilling Project (KTB) were taken to measure the complex electrical conductivity σ (1 kHz up to 1 MHz), porosity, BET-surface, permeability and density. The porosity ranged about 1 vol%, while the permeability k varied from 16.05 µD to > 0.01 µD for in-situ pressure conditions. The permeability decreased about 2 orders in magnitude up to pressures of 200 MPa. Conductivity σ was measured in the same pressure range on 1 M NaCl saturated samples. Thin sections and SEM analysis revealed an enrichment of carbon and ilmenite (about 1 vol%) on inner cleavage cracks of mica, thus causing an unusual high σ (ranging from 4.2 × 10^sup -3^ S/m to 67 × 10^sup -3^ S/m) being orders of magnitude higher than normally measured on such types of rocks (about 300 × 10^sup -6^ S/m). An inverse pressure dependence of σ was detected on some of the samples. Electronic conduction was confirmed by least-squares-fits of model data to the frequency dispersion of the conductivity and by measuring the time dependence of the volume conductivity and its frequency dispersion. Thus the dominating role of the reconnected network of carbon and ilmenite on the enhanced volume conductivity was proved. An increase of the conductivity due to hydrofracturing by high pore fluid pressures plays a less important role.[PUBLICATION ABSTRACT]
ISSN:0169-3298
1573-0956
DOI:10.1023/A:1006592016176