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Geophysical Exploration for Geothermal Pre-Feasibility
Studies in NevisGravity and Self Potential Geophysics
ByFrank Dale Morgan
Geo-Caribes Technical Team &Massachusetts Institute of Technology
March 2006
Gravity and Self Potential Results In the OAS Report
Dee
p H
arbo
r
Ocean R
oad
Government Road
Craddocks
Farms
BathStonyGrove
Brow
n Hill
ChurchGround
Figure 1: Map of Study Area with Data Stations.
Figure 2: SP Map (mV) from “Network Method”.
Figure 3: Normalized 2D SP Current Source Locations.
Figure 4: Normalized SP Current Sources. Faults and Cones from Huttrer (1998) and Temperatures from GeothermEx (2004).
56
5349
54
54
47
4036
38
41
41
FaultsConesSoufrieres
50 Temp (C)
46
100
Figure 5: SP Inversion Current Sources in 3D Using Homogeneous Resistivity Assumption (10x vertical exaggeration)
Figure 6: Vertical W-E Section of 3D Current Sources. Bath Springs at ~1500m.
Bath
Figure 7: Vertical S-N Section of 3D Current Sources. Farms Soufriere ~2500m.
Farm Estate~Deep Harbor
Figure 8: Bouguer Anomaly Map (mGal). (2.6 g/cc background)
mga
l
Figure 9: Polynomial Residual Gravity Map (mGal).
Figure 10: Bouguer Gravity Map with Faults and Cones from Huttrer (1998).
FaultCone
Figure 11: Polynomial Gravity Map with Faults and Cones from Huttrer (1998).
FaultCone
Figure 12: Possible Extent of Gravity Body From Bouguer Map.
Gravity Body
Figure 13: Possible Extent of Gravity Body From Polynomial Gravity Map.
Gravity Body
Low
V. High
V. High
V. High
LowHigh
Figure 14: Tertiary Map of Bouguer Gravity.
Low
Low
V. High
V. High High
Figure 15: Tertiary Map of Polynomial Gravity.
Figure 16: Bouguer 3D Surface.
N
N
NN
0
1
2
3
4
5
6
7
0 500 1000 1500 2000 2500 3000 3500 4000 4500
Distance (m)
Gra
vity
(m
Ga
l)
Figure 17: Data Line for Gravity Modeling From Bouguer Map.
SW NE
Figure 18: Data and Model Fits. (1) Shallow Limit and (2) Deep Limit.
0
1
2
3
4
5
6
7
-4000 -3000 -2000 -1000 0 1000 2000 3000 4000
Distance (m)
Gra
vity
(m
Gal
)
3.0g/cc
2.2 g/cc 2.2 g/cc
3.0 g/cc
2.2 g/cc
(2)(1)
0
1
2
3
4
5
6
7
-4000 -3000 -2000 -1000 0 1000 2000 3000 4000
Distance (m)
Gra
vity
(m
Gal
)
Depth = 200 mWidth = 3000 mThickness = 300 m
Depth = 1250 mWidth = 600 mThickness = 2300 m
0
1
2
3
4
5
6
7
-5000 -4000 -3000 -2000 -1000 0 1000 2000 3000 4000 5000
Distance (m)
mG
al
1 Km
0.4 Km
2.25 Km
3 Km
0.2 Km
– o = 0.6 g/cc
DataModel
Figure 19: Data and Model Fit for Realistic Gravity Body.
Figure : Possible Extent of Bouguer Gravity Body with SP Current Sources.
10056
54
54
47
40
4953
41
46
36
38
Low Gravity
Low Gravity
High Gravity
Figure : Possible Extent of Polynomial Bouguer Body with SP Current Sources
10056 54
54
47
40
4953
41
46
36
38
High Gravity
Low Gravity
Medium Gravity
Self Potentials: Further Analysis
Farm EstateBath Springs
3D SP Source Inversion Using Homogeneous Resistivity Assumption (5x vertical exaggeration)
Farm EstateBath Springs
3D SP Source Inversion Using 2D Resistances Overa Homogeneous Halfspace (5x vertical exaggeration)
-62.63 -62.625 -62.62 -62.615 -62.61 -62.605 -62.6 -62.595 -62.59
17.115
17.12
17.125
17.13
17.135
17.14
17.145
longitude (deg)
lati
tud
e (d
eg)
Interpolated Resistance Data (log10
)
2
2.5
3
3.5
4
Interpolated SP Data (mV)Interpolated Resistance Data (log10 Ohms)
“3D” SP Source Inversion Using Interpolated SP Data and Interpolated Resistances in a Single Layer Model
Gravity: Further Analysis