Microbial Enhanced Oil Recovery: A Sober Look at an ...
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Microbial Enhanced Oil Recovery: A Sober Look at an Infectious Idea
Steven L. Bryant
Center for Subsurface Modeling
Texas Institute for Computational and Applied Mathematics
The University of Texas at Austin
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SPE DISTINGUISHED LECTURER SERIESis funded principally
through a grant of the
SPE FOUNDATIONThe Society gratefully acknowledges
those companies that support the programby allowing their professionals
to participate as Lecturers.
And special thanks to The American Institute of Mining, Metallurgical,and Petroleum Engineers (AIME) and individual SPE sections for their contribution to the program.
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Acknowledgements
• Society of Petroleum Engineers• Dr. Thomas Lockhart, EniTecnologie • Industrial Affiliates of the Center for
Subsurface Modeling – BP, ChevronTexaco, ExxonMobil, Schlumberger,
Halliburton, Intevep/PDVSA, Saudi Aramco, IBM, Texas Water Development Board
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The Producer’s Tale, Part 1
• Discovery, appraisal, development…
Life is good!
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The Producer’s Tale, Part 2
• Primary recovery … doesn’t
Life is tough.
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The Producer’s Tale, Part 3
• Secondary recovery battles physics– Poor sweep efficiency
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The Producer’s Tale, Part 3
• Secondary recovery battles physics– Poor displacement efficiency
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The Producer’s Tale (Chorus)
• Primary recovery … doesn’t• Secondary recovery battles physics …
and loses
Oil left in place
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The Germ of an Idea
SelfSelf--propagating!propagating!Just add Just add
water!water!
• Intelligent agent for oil recovery
• featuring DCF*SelfSelf--directing!directing!
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The Germ
• Microbe produces recovery-enhancing chemicals
Nutrients
Trapped oil
Products
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• The microbes replicate!– Process is self-
sustaining!
SelfSelf--directing!directing!
The Best Part
SelfSelf--propagating!propagating!
• The microbes consume residual oil!– Find their own carbon
source in the reservoir!– Create recovery-
enhancing chemicals right where needed!
–DCF eliminates logistical hassle!
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The Producer’s TaleNew
Life is good again!EOR
performance at waterflood cost
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The Hard Part• process development, scale-up, field implementation….
© Rube Goldberg Inc.
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Overview
• Scale-up, design issues for microbial enhanced oil recovery
• Derive performance constraints• Review laboratory, field experience
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What is MEOR?• EOR, not well stimulation • goal: increased displacement, volumetric
efficiencies
Time
Cum
ulat
ive
Oil
Prod
uced
Recovery process without stimulation
Enhanced recovery process
incremental oil
t1
Same process with well stimulation at t1
“faster” oil
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EOR vs. Well Stimulation
stimulation zone of influence
EOR zone of influence
stimulation zone of influence
• Stimulation treats producers– increase near-wellbore
permeability• acidizing• hydraulic fracturing
– increase near-wellbore oil mobility• thermal• chemical• microbial
• EOR process propagatesfrom injector to producer
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Microbial products*
• Acids• Biomass• Gases• Solvents• Surfactants• Polymers
* Momeni, D. and T. Yen, in Microbial Enhanced Oil Recovery: Principle and Practice, 1990
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What is MEOR?
• MEOR is chemical EOR, but with chemicals generated in situ
Chemical flooding
Inje
ctio
nw
ell
Qpr
oduc
tion
wel
l
residual oil
bypassed oil
rmrw
Inje
ctio
nw
ell
Q
microbesresidual oil
bypassed oil
prod
uctio
n w
ell
Microbial EOR
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What is MEOR?
•• MEOR introduces MEOR introduces reactionreaction engineering engineering into into reservoirreservoir engineeringengineering
Stoichiometry: N → νN CKinetics: dN/dt = -k1N
Injected nutrient: N0
Required product: Creq
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MEOR Design Options
Design Feature
Reactor type
Carbon source
Microbe provenance
Options
Fixed GrowingMobile
In situEx situ
ExogenousIndigenous
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MEOR Base Case Implementation
recovery enhancing chemicals
water, nutrient injection
OperationInoculation
microbe, nutrient injection
microbe colony
rm
Shut-in
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Reaction/Reservoir Engineering Constraints
• Residence time vs. reaction time• Consumption of in situ carbon source• Limiting reactant propagation• In situ gas production• Feasible reactor size• Mobility control via in situ generation of
viscosifying agents
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Reaction/Reservoir Engineering ConstraintsPr
oduc
tC
once
ntra
tion
Time in Reactor
Creq
τrxn
Residence time vs reaction time
0.01
0.1
1
10
10 100 1000
Injection rate, bbl/d
Rat
e co
nsta
nt, 1
/d
τ rxn = τ res
τrxn < τres
rmrw
Inje
ctio
n w
ell
Q
microbes
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Reaction/Reservoir Engineering Constraints
Consumption of in situ carbon source
Slug size(product volume/reservoir volume)
Inje
ctio
n w
ell s
paci
ng,
acre
s
0,1
1
10
100
1000
0,001 0,01 0,1 1
Creq = 0.2%
Creq = 1%
Reservoirvolume
Reactorvolume
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Reaction/Reservoir Engineering Constraints
0
10
20
30
40
0 20
40
60Limiting reactant solubility,
ppm
radi
us a
t whi
ch
reac
tant
is
exh
aust
ed,
ftwater, nutrient
injectionLimiting reactant
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Reaction/Reservoir Engineering Constraints
In situ gas production (CO2, CH4)- reactor volume limits CH4 production
1
10
100
1000
0,001 0,01 0,1 1
Methane slug size, PV
Inje
ctio
n w
ell s
paci
ng,
acre
s
P = 10 atm
P = 100 atm
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Reaction/Reservoir Engineering Constraints
In situ gas production (CO2, CH4)- generating CO2 requires much O2
0.01
0.1
1
10
100
1 10 100 1000Oxygen concentration in water, g/m3
wat
er s
lug
size
/CO
2 slu
g si
ze
P=10 atmP=100 atm
Surface water
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Mobility Control for EOR
• ProblemEOR processes subject to instabilities
• Solutionmobility control in drive fluids
• Polymer• Foam
• LessonMore is better (Lake, 1989)
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Reaction/Reservoir Engineering Constraints
Mobility control via in situ generation of viscous agents• effect of vertical heterogeneity
20 md800 md10 mdin
ject
ion
Viscosity
Pressure
Crossflow tendency
!crossflow reduces conversion, efficiency
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Reaction/Reservoir Engineering Constraints
microbeswell
region of low reactivity
region ofhigh reactivity
Mobility control via in situ generation of viscous agents• effect of perturbations
Viscosity generation is unstable to perturbations
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Review of Laboratory Work
Information required:− Reaction parameters
• Rate constants• Form of rate expression • Stoichiometry (conversion, selectivity)
− Minimum effective concentrations
Such information is largely absent from the literature
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Review of Laboratory Work
• Batch vs continuous reactor operation
• Typical recoveries 10%-20% ROIP– Low compared to chemical processes
(50% ROIP)– High recoveries (30%-60%) may have
involved other mechanisms
• Oil banks not observed• Mechanisms very poorly understood
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High MEOR recoveries in lab?
• SPERE 3 (May 1988) 489-495; SPERE 4 (May 1989) 151-154.
• Reported recoveries– 35% ROIP (after waterflood) light oil– 58% ROIP (after waterflood) heavy oil
• Residual established at 1-2 psi ∆P• Microbial flooding at 4-5 psi ∆P• Absolute P increased 60 psi in some expts.
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High MEOR recoveries in lab?
• Hart’s Pet. Eng. Intl. (June) 46-73, 1996. • Reported recoveries 30-50% ROIP (after
waterflood)• Measured effluent interfacial tensions
– 2-3 times lower than water-oil– Expect 25% ROIP from typical capillary
desaturation curve• Recovery strongly correlated with
permeability reduction
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Capillary Desaturation Curve (Lake, 1989)
fact
or o
f 3
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Review of Simulator Development
• Small effort in modeling – mainly funded by DOE – SPE 28903– SPE 24202– SPE 22845
• Mechanisms poorly understood– Modeling/simulation premature
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Review of Field Experience (1)
• Few EOR projects
• Many well stimulations
Increase in oil rateStimulation
% ROIP recoveredMEOR
Measure of successProcess
ROIP = Remaining Oil In Place
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Review of Field Experience (2)
• Three projects aimed at increasing displacement efficiency– Two watered-out, low oil rate Oklahoma
fields
– One high water cut, low oil rate Texas field
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Review of Field Experience (2)
• Watered-out, low oil rate Oklahoma fields – Incremental recovery <1% ROIP in 2 years– Oil rates increased steadily four months before the
trial– Residence time vs reaction time criterion not
satisfied– Poor volumetric efficiency
• Probable thief zone (rapid tracer breakthrough)• No polymer injection or biopolymer production
– Microbe efficacy unknown (poor lab results as per above)
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Review of Field Experience (3)
• Three projects aimed at increasing volumetric efficiency (SPE 75328, 59306, 35448, 27827)
– Mixed results• Positive result (SPEREE Feb.
2002)– Uses native microbes– Extrapolates to ~5% ROIP ultimately
recovered, comparable to polymer floods– Simpler mechanism– Issues
• limiting reactant analysis• maintaining long-term
injectivity
Technical basis: growing biomass
reduces permeability,
redirects injected water
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Review of Field Experience (4)
• Well stimulation with microbes– Popular in some regions– Cheap– Mixed results– Inconclusive evidence for mechanism(s)
• Some involve microbe/oil interaction– Viscosity reduction
• MEOR analytical tools/engineering constraints applicable
– Residence time– Limiting reactant
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Microbial Well Stimulation
Inoculation
microbe, nutrient injection
microbe colony
rm
Shut-in
Oil, water production
Operation
Viscosity reduction
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Reaction/Production Engineering Constraints
Oil
visc
osity
Time in Reactor
µperf
τres
rmrw
Prod
uctio
n w
ell
Q
microbes
• Residence time fixes reaction time
• Reaction time fixes viscosity reduction
• Viscosity reductiondetermines productivity increase
• Nutrient supply?
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Conclusions (1)
• Key potential advantage of MEOR– ability to use in situ carbon source
Just add Just add water!*water!*
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Conclusions (2)
• Key disadvantages of MEOR– Likely microbial performance
constraints– Poor lab, field performance relative
to peers (other chemical EOR)
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Conclusions (3)
• Preferred MEOR option– Profile modification via biomass – Simpler, esp. with indigenous microbes– Compared to waterflood
• Small incremental cost• Marginal increase in difficulty
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Conclusions (4)
• Reservoir/reaction engineering perspective needed– Missing in past MEOR research– Inadequate data for quantifying
performance constraints• Similar perspective needed for
microbial well stimulation
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