Maureen: A Faultless Performance? Symposium for Alain Gringarten – 13 Sept 2005
Jan 12, 2016
Maureen: A Faultless Performance?
Symposium for Alain Gringarten
– 13 Sept 2005
Maureen – a common heritage?
• 1971– AG PhD thesis– JM LOCA studies
• 1974 – Maureen discovered
• 1977 – JM training in RE at IC
• 1983-1997 – |Several Maureen studies
• 2000-05 – PhD thesis and MSc mentoring
Arp et al’s Formula, 1967
Correlation coefficient = 0.958
2159.0
1903.0
0770.00422.0
)(
)1(898.54
a
iw
oi
wi
oi
wR
P
PS
k
B
SE
Fault: (as dictionary)
• 1) something which one is rightly open to blame
• 2) a mistake
• 3) a blemish
• 4) a failure to serve correctly (as in a game)
Reservoir Engineering
• Like a game– Make a move/shot, and wait for the response– Prepare next move/shot on that basis
• Or a court case– Ask a question– Try to sort out lies from facts– Focus on defending your client– Ask next question
Nature can lie?
Nature does not lie. Apparent lies are due to:
• Asking the wrong questions.
• Asking closed questions.
• Spending insufficient time and energy collecting data.
• Poor equipment.
Geological Faults
• Have the potential to disturb the hydraulic continuity between sections of the reservoir
• The traditional view is that this makes development of a reservoir more problematical– (extra wells needed to achieve same recovery)
• But can faults improve recovery?
Detecting Faults
• Seismic
• Drilling
• Logs
• Well tests
• Pressure regimes
• Fluid regimes
• OWC regimes
Map from Cutts, 1991
Well pressure and OWC data
Well OWC feet
FWL feet
Pressure psi
2X datum - -
3X +80 - -
A10 +25 datum datum
A16 - - +24
A17 +43 +83 +10
A18 +12 - +8
So, does the reservoir consist of many small compartments, bounded by sealing
faults?
This possibility seems to have been ignored in the early development decision to pre-drill development
wells (though it was not until the A-series wells were drilled that this
view of the reservoir was available).
Seismic sections (1995)
Mapping the faults (1995)
Can we reconcile?
• The static data– OWCs, FWLs and pressures
• The faults seen on seismic
• The subsequent reservoir pressure
and flow performance?
1) The Area around Wells A10 and 3X
• The oil:water contact in A10 is shallower by 55 feet than in 3X– We could have a sealing fault (Allen,
Gringarten)– We could have a perched contact (as Fulmar or
Pickering)– The well depths are in error (Allen)
The Sealing Fault Option – T J Allen, 1992
Accuracy in Assessing Well Depths
• 3X is a straight hole. The errors in the depth measurement are due to cable effects (~1 in 1000, Sollie and Rodgers, 1994)
• A10 is a deviated well. The errors in the depth measurement are due to cable effects (~1 in 1000), plus errors in giro surveys (~30 feet, Wolff and de Wardt, 1981).
• Thus, the two OWCs lie within 2σ of each other.
Errors in Well Depths – T J Allen, 1992
Although the probability is low that the two OWCs are common, this is the most favoured option.
• Pressure behaviour of reservoir– Good communication across whole of reservoir
• Faults are seen on seismic, – but their extents are limited– and the shale/gouge ratio is small– And there is no other evidence of hydrothermal
precipitation
2) The Anomalous OWCs
• Once we have adjusted the depths of data from well A10, the oil:water contact data (and FWLs) seems to show deeper contacts in the south and north than in the centre.
• Are these compartments – Fully sealing,– Stepped sealing,– Or what?
The Adjusted OWC data
Deep in the SSE
Shallow in the Centre
Deep in the NNW
Asking if you sink or swim in the Dead Sea is a closed question.
The Thermal Behaviour of Maureen
• Maureen is an anticlinal structure overlaying chalk, which itself over-lays a salt dome.
• Salt is a good conductor of heat.• Temperature measurements suggest that the centre
of the reservoir is ~ 20 ºF hotter than the extremities.
• Steady-state temperature calculations support this assessment (S Goodyear).
Effects of Temperature
Oil
Water
Hotter, 20 deg FCooler
40 feet
So good hydraulic continuity appears to have been a feature of Maureen. There were no sealing
faults.
But there may have been bonus points arising from the faults.
Effect of Faults
One of those counter-intuitive results to come from the SAIGUP project was that short or partially sealing
faults perpendicular to injector/producer directions can
improve recovery.
Effect of Anisotropy
• In a five spot pattern, and line-drive, the best recovery is obtained when the maximum permeability is in the direction parallel to a line joining injectors.– Craig, 1971, Mortada and Nabor, 1961
So was Maureen’s performance faultless?
• The geological faults were either not significant hydraulically, or
• Assisted recovery.
• But with hindsight, there were things that we did not fully understand.
• It encourages us to keep active research going.
And keeping mentally active (such as by
research) is one way of remaining youthful.