Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.
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Transcript of Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.
![Page 1: Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.](https://reader035.fdocuments.net/reader035/viewer/2022062713/56649cbf5503460f94985969/html5/thumbnails/1.jpg)
Using 3D Seismic Imaging Using 3D Seismic Imaging for Mine and Mineral for Mine and Mineral
ExplorationExploration
G. SchusterG. Schuster
University of UtahUniversity of Utah
![Page 2: Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.](https://reader035.fdocuments.net/reader035/viewer/2022062713/56649cbf5503460f94985969/html5/thumbnails/2.jpg)
OutlineOutline• Reflection Imaging PrinciplesReflection Imaging Principles
• Case History: 3D Seismic PotashCase History: 3D Seismic Potash
• Case History: 2D TomographyCase History: 2D Tomography
• Case History: CrosswellCase History: Crosswell• SummarySummary
![Page 3: Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.](https://reader035.fdocuments.net/reader035/viewer/2022062713/56649cbf5503460f94985969/html5/thumbnails/3.jpg)
Seismic SectionSeismic SectionD
epth
Dep
th
Tim
eT
ime
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Seismic SectionSeismic SectionD
epth
Dep
th
Tim
eT
ime
Dep
th=
vel*
TD
epth
=ve
l*T
Depth Resolution =Depth Resolution =
Horiz. Resolution >Horiz. Resolution >
= 10 m= 10 m
= 60 m= 60 m
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2-D Seismic Survey2-D Seismic Survey
6 km6 km
30 m30 m
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3-D Seismic Survey3-D Seismic Survey
6 km6 km
30 m30 m
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2D vs 3D2D vs 3D
TopTopViewView
![Page 8: Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.](https://reader035.fdocuments.net/reader035/viewer/2022062713/56649cbf5503460f94985969/html5/thumbnails/8.jpg)
OutlineOutline• Reflection Imaging PrinciplesReflection Imaging Principles
• Case History: 3D Seismic PotashCase History: 3D Seismic Potash
• Case History: 2D TomographyCase History: 2D Tomography
• Case History: CrosswellCase History: Crosswell• SummarySummary
![Page 9: Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.](https://reader035.fdocuments.net/reader035/viewer/2022062713/56649cbf5503460f94985969/html5/thumbnails/9.jpg)
Potash GeologyPotash Geology(Pruegger & Nemeth)(Pruegger & Nemeth)
• Sakatchewn Province: 12 km/12 Sakatchewn Province: 12 km/12 km Potash mine 1 km depthkm Potash mine 1 km depth
• GeologyGeologyPotashPotash
SaltSalt
LimestoneLimestoneKarstKarst
ReefsReefs
12 km12 km
200 m200 m
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Potash GeologyPotash Geology• Sakatchewn Province: 12 km/12 Sakatchewn Province: 12 km/12
km Potash mine 1 km depthkm Potash mine 1 km depth
• GeologyGeologyPotashPotash
SaltSalt
LimestoneLimestoneKarstKarst
ReefsReefs
12 km12 km
200 m200 m
Can Seismic Predict Can Seismic Predict DisturbancesDisturbances??
![Page 11: Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.](https://reader035.fdocuments.net/reader035/viewer/2022062713/56649cbf5503460f94985969/html5/thumbnails/11.jpg)
3D Seismic Parameters3D Seismic Parameters
• Receiver line interval = 180 mReceiver line interval = 180 m
• Survey Area 15 kmSurvey Area 15 km22
• Source line interval = 300 mSource line interval = 300 m• 550 traces/shot550 traces/shot• 60 m shot/recievr interval60 m shot/recievr interval• 150 Hz Dynamite, 12-fold, 30 m150 Hz Dynamite, 12-fold, 30 m• 1/3 million dollars1/3 million dollars
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Top View of Mine (z=1 km)Top View of Mine (z=1 km)
DisturbanceDisturbance
10 km10 km
15 m15 m5 m5 m
= Seismic Anomaly?= Seismic Anomaly?
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Collapsed BrecciaCollapsed Breccia
15 m15 m
Breccia LimestoneBreccia Limestone
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Collapsed BrecciaCollapsed Breccia
10 m10 m
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SummarySummary3D Seismic Sections3D Seismic Sections
BoreholesBoreholes
Top SaltTop Salt
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3D Seismic Depth Slices 3D Seismic Depth Slices and Cross Sectionsand Cross Sections
Mine EntryMine Entry1 km1 km
Cross sectionCross section
Cross SectionsCross SectionsDepth SlicesDepth Slices
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Boreholes+LogsBoreholes+Logs
Winnipegosis LimestoneWinnipegosis Limestone
MineMine
Integrated Lanigan DataIntegrated Lanigan Data
200 m200 m
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Red BedRed Bed
LimestoneLimestone
Gamma Log PotashGamma Log Potash
200 m200 m
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““Looking Down” ViewLooking Down” View
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LimestoneLimestone
200 m200 m
Mine RoofMine Roof
Mine RoomMine Room
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Mine near potash above limestoneMine near potash above limestone
LimestoneLimestone
Subtle Sags = Collapse ZonesSubtle Sags = Collapse Zones
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1.0 km1.0 km
0.0 km0.0 kmSeismicSeismic InterpretationInterpretation
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Prugger and Nemeth SummaryPrugger and Nemeth Summary
We found a number of inconsistencies with our data We found a number of inconsistencies with our data (eg.- seismic depth conversion, borehole orientation, (eg.- seismic depth conversion, borehole orientation, coordinate conversion) once everything was put coordinate conversion) once everything was put together in GOCAD.together in GOCAD.
We use GOCAD (almost every day) to view various We use GOCAD (almost every day) to view various types of data simultaneouslytypes of data simultaneously
Data formats are well described, so we’ve generally Data formats are well described, so we’ve generally found adding data to be easy.found adding data to be easy.
$333K, Seismic-> Rooms, anoamlies$333K, Seismic-> Rooms, anoamlies
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WHAT’S NEXT FOR WHAT’S NEXT FOR POTASHCORP ?POTASHCORP ?
• We are building a “MODEL3D” earth model We are building a “MODEL3D” earth model from 3D seismic & well-logs, which results in a from 3D seismic & well-logs, which results in a velocity VOXET. This is then used to depth-velocity VOXET. This is then used to depth-migrate the seismic data, resulting in an migrate the seismic data, resulting in an improved seismic depth-image.improved seismic depth-image.
• We plan to keep adding data, minesite by We plan to keep adding data, minesite by minesite, and we want make GOCAD minesite, and we want make GOCAD conveniently available at all our mine divisions.conveniently available at all our mine divisions.
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OutlineOutline• Reflection Imaging PrinciplesReflection Imaging Principles
• Case History: 3D Seismic PotashCase History: 3D Seismic Potash
• Case History: 2D TomographyCase History: 2D Tomography
• Case History: CrosswellCase History: Crosswell• SummarySummary
![Page 26: Using 3D Seismic Imaging for Mine and Mineral Exploration G. Schuster University of Utah.](https://reader035.fdocuments.net/reader035/viewer/2022062713/56649cbf5503460f94985969/html5/thumbnails/26.jpg)
Mineral GeologyMineral Geology• Western State: Large mining Western State: Large mining operation over many km, but at operation over many km, but at shallow depth (30 m) shallow depth (30 m) • GeologyGeology
?????? km?????? km
20 m20 m
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Goal:Goal: Cheaply Find Lateral Extent Cheaply Find Lateral Extent of Playof Play
• GeologyGeology
?????? km?????? km
20 m20 m
SolnSoln: 2-D Refraction Tomography: 2-D Refraction Tomography
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Seismic ImagingSeismic Imaging ofof AnomalyAnomaly
Velocity AnomalyVelocity Anomaly
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Seismic ImagingSeismic Imaging ofof AnomalyAnomaly
Velocity AnomalyVelocity Anomaly
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Seismic ImagingSeismic Imaging ofof AnomalyAnomaly
Fast TimeFast Time
Velocity AnomalyVelocity Anomaly
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Seismic ImagingSeismic Imaging ofof AnomalyAnomaly
Velocity AnomalyVelocity Anomaly
Fast TimeFast Time
Slow TimeSlow Time
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Seismic ImagingSeismic Imaging ofof AnomalyAnomaly
3.0 m3.0 m
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Discretize Earth Model into Grid of Discretize Earth Model into Grid of Unknown VelocitiesUnknown Velocities
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One Traveltime Equation for Each One Traveltime Equation for Each MeasurementMeasurement
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One Traveltime Equation for Each One Traveltime Equation for Each MeasurementMeasurement
T = T = L /v L /v + + L /vL /v + + L /vL /v
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Many Traveltime Equations for Each Many Traveltime Equations for Each ShotShot
T = T = L /v L /v + + L /vL /v + + L /vL /v
TT = = L /vL /v + + L /vL /v + + L /vL /v
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Field Data Field Data • Thirty-one shots and 120 traces Thirty-one shots and 120 traces total 3188 traveltimes picked. total 3188 traveltimes picked. Shot interval: 20 m Shot interval: 20 m geophone interval 5 mgeophone interval 5 m
• Source frequency 40 Hz. Source frequency 40 Hz.
• Record length 1 sec. Record length 1 sec. sample interval 0.5 millisecond . sample interval 0.5 millisecond .
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Seismic Refraction DataCommon Shot Gather – Line 2
West East
Created with Vista
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Seismic Data Acquisition Parameters
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Seismic Refraction Data
Ray Path
Density
Velocity Profile
Ray Density Plot
Line 1 – Final Model (3rd Schedule)
55 mNo Salt
46 mNo Salt
20 mHit Salt
WellWell
Well
Tunnel
Surface
300 400 500
60
40
20
Depth & Distance in Meters
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SummarySummary$5K, Seismic-> Mapped Lateral$5K, Seismic-> Mapped Lateral extent of Playextent of Play
4:1 Offset-Depth ratio4:1 Offset-Depth ratio
Less Resolution Than ReflectionLess Resolution Than Reflection
4 More surveys4 More surveys
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ConclusionsConclusions3D Seismic Reflection Mine Survey:3D Seismic Reflection Mine Survey:
> $50K several sq. km> $50K several sq. kmDepth Resolution = 5-20 mDepth Resolution = 5-20 mOffset Resolution = 20-60 mOffset Resolution = 20-60 mRequires Expert ProcessingRequires Expert Processing
Refraction Tomography:Refraction Tomography:> $5K several km> $5K several km
Always works, moderate expertise, Always works, moderate expertise, 4:1 offset/depth ratio4:1 offset/depth ratio
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Crosswell Traveltime TomographyCrosswell Traveltime Tomography
Time Time
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00 9090Offset (m)Offset (m)
Dep
th (
m)
Dep
th (
m)
00
210210
PP
00 9090Offset (m)Offset (m)
SS
23002300
36503650m/s m/s
11501150
18251825m/s m/s
Fault ModelFault Model
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00 9090Offset (m)Offset (m)
Dep
th (
m)
Dep
th (
m)
00
210210
PP
00 9090Offset (m)Offset (m)
SS
23002300
36503650m/s m/s
11501150
18251825m/s m/s
AA
BB
CC
AA
BB
CCDD
Fault TomogramFault Tomogram
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BBAA
CC
DD
00 184184Offset (ft)Offset (ft)
Dep
th (
ft)
Dep
th (
ft)
00
500500
PP
00 184184Offset (ft)Offset (ft)
SS
1400014000
2250022500ft/sft/s
77507750
1270012700ft/sft/s
W Texas TomogramW Texas Tomogram
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Crosswell McElroy DataCrosswell McElroy Data
820
840
860
880
900
920
940
9600 5040302010
6505
5767
5398
5029
6136
(m/s)
Dep
th (
m)
201 shots from depths of 811 to 963 m
186 hydrophones from depths of 822 to 963 m
Shot, hydrophone interval 0.76m
Maximum source freq. 1400 Hz
846m
920m
887m
Distance (m)
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27027000
VV
Depth (ft)Depth (ft) 31503150
VV
Receiver WellReceiver Well
Source WellSource Well
Crosswell McElroy ComparisonCrosswell McElroy Comparison
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Poisson Ratio Comparison
Poisson Ratio Comparison
00 Offset (ft)Offset (ft)
Dep
th (
ft)
Dep
th (
ft)
00
250250
Visco.Visco.
184184
AA
BB
0.350.35
0.00.055
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SummarySummary$25K, Seismic-> Mapped Lateral$25K, Seismic-> Mapped Lateral extent of Playextent of Play
3 m Resolution!3 m Resolution!