electrical surveying part ii: induced polarization · pdf file1 electrical surveying part ii:...
TRANSCRIPT
![Page 2: Electrical Surveying Part II: Induced polarization · PDF file1 Electrical Surveying Part II: Induced polarization method Dr. Laurent Marescot laurent@tomoquest.com](https://reader038.vdocuments.mx/reader038/viewer/2022102720/5a79ef127f8b9a3d058bda8f/html5/thumbnails/2.jpg)
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Introduction
Electrical surveying…
• Resistivity method• Induced polarization method (IP)• Self-potential (SP) method
Higher frequency methods (electromagnetic surveys):• Electromagnetic induction methods• Ground penetrating radar (GPR)
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Induced polarization method
The induced polarization method makes use of the capacitive action of the subsurface to locate zones where clay and conductive minerals are disseminated within their host rocks
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Application
• Exploration of metalliferous mineral deposits• Clay location for hydrogeological surveys• Mapping electrochemical reactions for pollutants in the
ground
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Structure of the lecture
1. Basic IP theory and units2. IP properties of rocks3. Survey strategies and interpretation4. Conclusions
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1. Basic IP theory and units
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Basic theory
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Membrane polarization
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Electrode polarization
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10Note that membrane and electrode polarizations cannot be separately identified!
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Time-domain IP
∫=2
1
)(1
0
t
ta dttV
VM
Ma is the apparent chargeability in milliseconds (ms)
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Frequency-domain IP
aAC
aACDCaFEρ
ρρ −=100
FE is the percent frequency effect (in %)ρaDC is the apparent resistivity mesured at low frequency (0.05-0.5 Hz)ρaAC is the apparent resistivity mesured at higher frequency (1-10 Hz)
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Frequency-domain IP
( )aDCaACaDC
aACaDC FEMFρ
πρρρρπ 55 102102 ⋅=
−⋅=
MF is the metal factor in Siemens per meters (S/m)
This normalization removes to a certain effect the variation of IP effect with the effective resistivity of the host rock (ρaDC )
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Spectral induced polarization (SIP)
• For a complete description of the IP phenomenon, two frequencies are not enough. The SIP technique measures a frequency spectrum ranging from 10-2 to 104 Hz.
• The shift between the current and the potential is used to discriminate between various metallic ores or substances
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2. IP properties of rocks
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IP versus resistivity
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Chargeability of minerals
Concentration 1 %, current injection time 3 s, integration time 1 s
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Chargeability of rocks
Current injection time 3 s, integration time 0.02 s to 1s
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IP effect…
• … is higher for disseminated than massive clay and metallic particles
• … depends on the concentration of clay and metallic particles
• …increases if water in the ground has a low conductivity• … increases with decreasing porosity• …varies with the amount of water in the ground• …depends on the current intensity and the current
frequency
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3. Survey strategies and interpretation
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IP measurement
• Different measurement devices for Time-domain IP and Frequency-domain IP
• Same electrode arrays (for mapping and sounding) than in conventional resistivity
• Sensitive to telluric noise • Sensitive to noise resulting from electromagnetic coupling
between adjacent wires (dipole-dipole array very useful)• Stability of potential measurements can be a problem (use
non polarizable electrodes, see lecture on SP surveying)
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Interpretation
• Mainly qualitative, more complex than for resistivity• Inversion using iterative algorithms (similar to resistivity)• For SIP, getting information on material structures (e.g.
size of pores) using the Cole-Cole model
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Mining geophysics
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Geothermy
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Hydrogeology
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Geology
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4. Conclusions
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Advantages
• Detection of disseminated mineral (difficult with resistivity)
• Method sensitive to clay in aquifers
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Drawbacks
• Same disadvantages than resistivity method• Electrochemical phenomena are still not well understood• IP surveys is slow and more expensive than resistivity
surveys