2016 mullins hogs
TRANSCRIPT
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11
Oliver C. Mullins, Schlumberger
and One Zillion Collaborators
Reservoir Evaluation &
Reservoir Fluid Geodynamics (RFG)
1) RFG: DFA and Thermodynamics2) Connectivity and Equilibrated Asphaltenes3) Disequilibrium and RFG Processes4) Tar Formation5) GCxGC & Geochemistry
OUTLINE
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Basin modeling gives fluid type, timing, volumes
INTO reservoir
Geologic Time Line
Almost No Modeling of in-Reservoir
Fluid Geodynamics
NoModeling
Modeling ofProduction in Eclipse
Production Time Line
Missing Component of Reservoir Understanding and Modeling
Reservoir Fluid Geodynamics
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Petroleum SystemFILLS Reservoir
Reservoir Fluid GeodynamicsRedistributes Fluids & Tar Formation
Simulation Produces Reservoir
Reservoir Fluid Geodynamics Redistributes Fluids and Yields Tar Formation After Charge
Time Line
Geologic Past Present Day
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Asphaltene Nanoscience
Asphaltene Thermodynamics
Diffusion
Fluid Mechanics
Reservoir Fluid Geodynamics Requirements:
ComprehensiveScience
DFA Data of Reservoir
Reservoir EvaluationCase Studies
Vertical, LateralFluid in Fields
ReservoirFluid Geodynamics
Fault block migration,Formation overturn,Gas charge into oil,Tar mat formation,Viscosity gradients,Biodegradation & diffusion
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F = mg. Newton’s 2nd LawPeng-Robinson EoS 1976
HC Liquids
Gas-Liquid Fluid- (dissolved) Solid
Flory-Huggins-Zuo EoS 2010
Yen-Mullins Model 2010
Gas
Cubic EoS Gas-Liquid
Crude Oil Thermodynamics; Asphaltenes Now Included.No Predictions Without Asphaltenes of Heavy Oil, Tar, Viscosity…
Asphaltenes:
Van Der Waals EoS 1873
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First High Resolution Images of Asphaltene Molecules Agree with Yen-Mullins Model
IBM Zurich IBM Zurich, Schlumberger… Published in J. Amer. Chem. Soc.
Nobel Prizefor STM
STM Expt.
AFM Expt. AFM Expt.Atoms and Bonds
MO TheoryElectron Orbital
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7
2nd Optical
Analyzer
1st Optical
Analyzer
Pump
Sample
Bottles
Probes
Probe
(extended)
7
Downhole Fluid
Analysis (DFA)
Measure Oil Color
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Reservoir Fluid Geodynamics
Petroleum SystemContext
Gas Charge into OilDiffusion GOR Gradient
Different Reservoir Realizations
Diffusion& Convection
Fault Throw
Biodegradation& Diffusion
Not Equilibrated
Gas Charge into Flank
Heavy Oil & Tar MatConnectivity
“Gas Flood” Local GOR Increase but Connected
Compartments
Reservoir Baffling;Low Production
Regional Viscosity Gradients
Spill-Fill withBiodegradation
Big Viscosity Trends
Tar in NaturalFractions
No Productionin Flank
Gas Sweep & Tar GOR Gradient, Mobile Tar
Geologic Time
Diffusion/Mixing Connectivity
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Equilibrated Asphaltenes (FHZ EoS) Connected Reservoirs Proven in Production in all Fluid Types
Volatile OilCondensate
9
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Heavy Oil:100 kilometer length, 60 Meter 10x Gradient.
Matches FHZ with Yen-Mullins. No Adjustable ParametersConvective Currents
Tar
No Adjustable Parameters
Asphaltene Equilibration Reservoir ConnectedProven in Production
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Tar
Giant Asphaltene Gradient NOT a Maturity Gradient !From Convective Currents of Asphaltene-Enriched Oil.
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12
CH
4
CH
4
CH
4
CH
4
High GORLow Asphltn
Low GORHighAsphtn
Diffusive Gas Front
0 1 2 3 4 5
0 0.1
0.2
0.3
0.4
0.5
0.6
0.7
02
04
06
08
01
00
He
igh
t (m
ete
rs)
ClusterGradient
0
GOR scf/bbl
2k 4k 6k 8k
4k 6k 8k 10k 12k
Saturation Pressure (psi)
CH
4
Connected Reservoir But Not Equilibrated.Recent Gas Charge Into Oil. Diffusion Large GOR Gradients.
Asphaltene Expulsion. Convection Large Asphaltene Gradients.
Gravity CurrentPumps Asphaltenes to Base
Diffusion Gives HUGE GOR
Gradient at Top
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3 Adjacent Fault Blocks. Same Petroleum System.3 Entirely Different Realizations.
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Asphaltene Content in Liquid Phase
• Well 1: – large disequilibrium – high Asphaltene Content
• Well 2 & Well 3: – oil equilibrated – low Asphaltene Content
Where did the Asphaltene go? How and Why?
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Fault Block 1. GIANT Disequilibrium in 40 Meters !!!Pleistocene condensate charge into Oil ReservoirGas Diffusion and Asphaltene Migration Ongoing
DFA Asphaltenes
De
pth
(m
eter
s)
GOC
OWC
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1) 1st Movie of Tar Mat Formation2) Different Gradients Due to Baffling. Production Differs by 10x.
Well 1. Baffled. NOT EquilibratedLow DST Production Rate
Well 2. Equilibrated.High Production.
Asph GOR Core Ex
Equilibrated; Tiny Fluid Gradients
Late Gas Charge
Into OilReservoir
InitialGas
Asphaltene
1 2OD
120 180GOR m3/m3
Asphaltenes GOR
TVD
Not Equilibrated; Huge Gradients
0OD
Tar
Tiny Asphtn
FHZ Eo
S
TAR
600%AsphGOR
200180
SLOW Diffusion FAST Diffusion
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SEM. Tar Mat. Phase Separated Asphaltene
Trapped Oil
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Shale Baffle
Well 3. Density Stacking / Vertical Charge Above Shale. “Tar Mat”Asphaltenes Throughout.
Core %Asphaltene
Tar onShale
FB/Well #3
Asphaltenes On Baffle
Methane diffusionAsphalteneDiffusion(Slow)
Lateral Gas
Sweep
H2O
Vertical Gas Sweep
Shale
Lateral Sweep in Trap Filling Below Shale.
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FB 1. Baffled. BIG GradientsLow DST Rate
FB 2. Equilibrated.Tar MatHigh Production.
Late Gas
Charge
IntoOil
Resrvr
SAMEInitialPoint
Gas
Asphaltene
1 2OD
Asphaltenes
TVD
Not Equilibrated; Huge Gradients
Asph
Equilibrated; Tiny Fluid Gradients
0OD
Tar
Tiny Asphtn
FHZ Eo
S
Core Ex
TAR
600%Asph
%Aspht
FB 3. Equilibrated.Tar on Shale.Aspht Coating
Near Charge Point.Lateral ChargeGood SandPoor Sand, Many NF.
RFG: Late Gas into Oil. 3 Very Different Realizations.
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Primary Sand Connected and Equilibrated Asphaltenes.Flank Not Equilibrated. Connected?
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Well B: Mud gas isotope:dC13
Lateral Sweep. Surge in Gas, GOR Across Field. Connected.
DFA GORsurge across field
Well B: DFA GOR
GOR
Well AWell B
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Reservoir Connected !!!
New ! Not in Literature.
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280
300
320
340
360
380
400
420
440
460
0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8
TVDSS m
OD at ch[5]
Mud filtrate
No n-alkanes
Many n-alkanes
GC Confirms Biodegradation at/near OWC
OBM contamination
IMPACT OF BIODEGRADATION
DFA Color. Asphaltene Content
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270
310
350
390
430
470
0.0 0.5 1.0 1.5 2.0
TVDss, m
OD & Asphaltene
Alkanes Consumed at OWC
FHZ w Diffusion
FHZ (2nm)Diffusion Has not yet reached this high
Biodegradation and Diffusion. Severe Biodegradation TRIPLED Asphaltene Content PM 06
3x
Oil Volume
Alkane Consumption
via BiodegradationConcentrates Asphaltenes
ALKANE Diffusion
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DFA Color / Asphaltene Increase is 3X from Deep to Shallow Reservoir
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Naphthalene
1-Methyl Naphthalene
2-Methyl Naphthalene
C2-Naphthalenes
C3-Naphthalenes
Hopanes
Resv:1
Thermal Maturity
Contamination
Water Washing
GCxGC
1st Column
2n
dC
olu
mn
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Peters-Moldowan = 2
Resv: 1
Resv: 4
Peters-Moldowan = 4
Minimal Water Washing
Moderate Water Washing
Peters-Moldowan = 6(25-Norhopanes appeared)
Extensive Water WashingResv: 6
Naphthalene
Naphthalene
Naphthalene
C2-Naphthalene
C2-Naphthalene
C2-NaphthaleneC4-Naphthalene
C4-Naphthalene
C4-Naphthalene
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3X Increase in Asphaltenes:• PM 2 6• Water Washing (Assisted by Biodegradation)• Some Maturity Variation
Asphaltenes
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Early Oil Tar Stuck in Charge Plane Makes No Sense (to me).
60oC
1st Cold, Solid Bitumen Exits NanoDarcy! (Sink in Water?)
Then Heats Up !Reservoir (say 100oC)Greatly Decreasing Viscosity
Hot Roofing Tar
Drilling Hazard Tar.
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Then the Hot Tar Gets Stuck in the Grand Canyon
(or giant fault). Can’t Get Out !!
(or JUST maybe there is another explanation)
Reservoir Fluid Geodynamics can provide the answer.
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Conclusions
Reservoir Fluid Geodynamics (RFG): Redistribution of Fluids, Tar After Charge.A New Way to Evaluate Reservoirs
RFG Enabled by Asphaltene Thermodynamics, DFA & Case StudiesEquilibrated Asphaltenes Reservoir Connectivity.
Disequilibrium Geodynamic Processes. Charging, Baffling, Diffusion, Convection, Phase change /Tar etc.
Chemical Composition; GCxGC with GeochemistryCompare with Thermodynamics.
Drilling Hazard Tar Needs a New Look.
Universal DFA Workflows to Address Most Reservoir Concerns.
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Petroleum SystemFILLS Reservoir
Present Day
0 Ma After Charge
3 Ma After Charge:Asphaltenes Equilibrated
~12 Ma After Charge:Biomarkers Equilibrate
Asphaltenes Equilibrate FASTER than BiomarkersDue to Charge Sequence.Same as Tornado…?
Diffusion
MoreDiffusion
ReservoirCharge
Liquids
Liquids
Liquids
TVD
SS
TVD
SS
TVD
SS
Gas
Gas
Gas
Geologic Past
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Density Stacking of Crude Oils.First Heavy Oils, Then Light Oils.
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No Tat Mat. Core Extracts Merely Contain Oil.
Fault Block 1.
Giant Disequilibrium in 40 Meters!!.
Late Gas
Charge
IntoOil
Reservoir
Initial
Gas
Asphaltene
Current
Asphaltene in Oil Asphaltene in Core Extracts
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Gas Chargeinto Oil
Gas Charge into Oil Reservoir & Reservoir Fluid Geodynamics
DiffusionConvectionHeavy Oil /Tar
Flank Charge& Seal Failure
Tar Occlusion in Natural Fractures
DS Report
Independent
Low ProductionDrilling Hazard
OTC Paper
Different Production Concerns: Connectivity, PI, Tar Mat, Viscosity…
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DFA Color / Asphaltenes r
g/ccGORPressure
Not EquilibratedPoor ProductionEquilibrated
Good Production
Connectivity, Baffling, Compartments; DFA Gradients and Production
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Connectivity.Low GOR Black Oil.
Tahiti Field38
Pressure:Two Stacked Sands
Chevron
UpliftCausesFaulting
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DW
0 2 3
x4
x6
x7
TVDFeet103
DFA Color %Asphtn
In Each Main Sand: Equilibrated Asphaltenes: CONNECTED.
Proven Correct in Production.
kT
hgVODhOD
rexp)0()(
Oil C
olu
mn
Dia ~ 2nm
1
FHZ EoS