3-d 4-d gis for solving field development problems john d. grace, ph.d. earth science associates
DESCRIPTION
3-D/4-D GIS 2-D As Integration Tool Reservoirs, Platforms, Wells & Completions Reservoir Production Chart Well Test Report for Selected Completion Completions Are Scaled to 1999 Gas ProductionTRANSCRIPT
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3-D & 4-D GIS for Solving Field Development Problems
John D. Grace, Ph.D.
Earth Science Associateswww.earthsci.com
![Page 2: 3-D 4-D GIS for Solving Field Development Problems John D. Grace, Ph.D. Earth Science Associates](https://reader035.vdocuments.us/reader035/viewer/2022070611/5a4d1bb87f8b9ab0599cf6bf/html5/thumbnails/2.jpg)
3-D/4-D GIS
The 2-D Limitation
• GIS Mainly a Regional/Exploration Tool
• Databases Lose Detail at Large Scale
• Stacked Reservoirs Impede Field Use
• Reservoir Structure Ignored
• Gridding Capability Weak
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3-D/4-D GIS
2-D As Integration Tool
Reservoirs,Platforms, Wells & Completions
ReservoirProduction
Chart
Well Test Reportfor SelectedCompletion
Completions Are Scaled to 1999 Gas Production
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3-D/4-D GIS
3-D Foundations
• Hardware: 32 MB VRAM Video Cards
• Software: Spatial and 3-D Analyst
• Data: Well Directional Surveys
• Shape Type: Multipatches
• 3-D GIS - Not Just Visualization Tool
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3-D/4-D GIS
Directional Surveys = PolyLineZs
Straight Holes
DeviatedHoles
GraphicReference
Cage
High Island 105
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3-D/4-D GIS
Completions & Paleo Use Multipatch Symbols
High Island 105
Multipatch TopHung On Perf or
Sand Top
Multipatch Bottom Set atPerf Bottom
Second CompIn Deeper
Sand
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3-D/4-D GIS
3-D Reservoir Estimation
• Grid Sand/Perf Tops & Perf Bottoms
• Calculate Productive Area in 2-D– Use Drainage Area of Gas & Oil Comps
– Use Negative Area of Dry Holes
• Cut Top/Bottom Grids with 2-D Poly
• Convert Grids to Multipatchs
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3-D/4-D GIS
Grid Reservoir Top & Bottom
Wells
Top Perf Grid
Comp #1
Comp #2
Bottom Perf Grid
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3-D/4-D GIS
Calculate 2-D Productive Area Based on Wells
Positive Influence ofProductive
Comps
NegativeInfluence ofDry Holes
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3-D/4-D GIS
Cut Grids with 2-D Poly
Top Perf Grid
Bottom Perf Grid
ProductiveArea of
Reservoir
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3-D/4-D GIS
Convert to Multipatch/WireframeMultipatch
Wireframe ofReservoir
Completions
Reservoir “Volygon” Honors Structure & Isopach
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3-D/4-D GIS
Examples of 3-D GIS from GOM3
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3-D/4-D GIS
4-D Foundations
• Map Production Parameters over Time– Using “Traditional” Gridding Algorithms– Using Radial Flow Equations
• Exploit 3-D GIS Environment – Map Performance on Reservoir Structure– Extract Grid Statistics
• “Animate” Grids over Time
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3-D/4-D GIS
Gridding Production - Traditional
Control atEach
Completion
Clip atReservoirBoundary
IDW Grid of Production Rates
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3-D/4-D GIS
Gridding by Radial Flow Equation
Pr = Pw + QBo K h
lnrrw
Reservoir pressure at radius of distance
r from the well
Presure at well
Production Fluid/GasProperties
Rock/CompletionProperties
Distancefrom Well
The radial flow equation is used to calculatethe movement of fluids and gases in a reservoir
in response to production.
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3-D/4-D GIS
Radial Flow Advantages
• Mapping Fluid/Gas Movement• Honors Changing Rock/Fluid Properties
– Thickness and relative permeability– GOR and water saturation
• Exposes Performance Details– Completion Efficiency– By-passed oil/gas and heterogeneities– Flow vectors for infill drilling
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3-D/4-D GIS
Creating 4-D AnimationChooseSand in
3-D Scene
ChooseMap
ParametersExtract
ProductionData from
Oracle
3-D Analyst ODBC/Oracle
Spatial Analyst
Grid Production for each Month/Year
Drap Grids onReservoir Top
3-D Analyst
Enter 3-Dfrom 2-D
GIS
ArcView
Sequentially turn ongrids to animate scene
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3-D/4-D GIS
Examples of 4-D GIS from GOM3
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3-D/4-D GIS
4-D GIS Analytic Platform
• Completion/Reservoir Performance• Identify Water/Gas “Break Through”• Identify By-Passed Oil/Gas• Map Reservoir Heterogeneities• Compute Flow Vectors for Infill Wells• “Quick-Look” Reservoir Simulation
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3-D/4-D GIS
4-D As Integration Tool
2-D Map
ProductionChart
1993 Oil Production
in 3-D
4-DControls