4d gravity and subsidence: a guiding light to cost ...€¦ · gravity and subsidence monitoring on...
TRANSCRIPT
4D Gravity and Subsidence: a guiding light to cost-
effective reservoir monitoring
Egypt-Norway Technology Days
Outline
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• About OCTIO Gravitude
• The principles of the technology• 4D gravity
• Whole-field subsidence monitoring
• Case studies: the value of gravity and subsidence
• Concluding remarks
2013 IP and competence
transfer
About Octio Gravitude
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• Value of the technology proven in many fields on the NCS
• Gravitude performed 8 surveys in 6 fields since 2012• Best results to date• Safe operations with no HSE incidents• Ormen Lange field (operated by Shell) surveyed since 2012
• Octio has ten years of operational experience
• Highly skilled technical team with diverse background
2012GRAVITUDE
created within Statoil
Late 90’stechnology developed
by Statoil
The surveys in a nutshell
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ROV
Primary measurements: gravity and pressure at the seafloor
Sensor frame with 3 gravimeters and 3 pressure sensors
Concrete platform20’ per measurementRepeated visits
Gravity and subsidence monitoring on the NCS
Field1st
survey# of
surveys
Seafloor depth
(m)
Reservoir depth (m)
Area (km2)
N. stations
Comment
Troll 1998 6 320 1400 30 x 50 113 Norway’s largest gas field
Mikkel 2006 4 230 2500 3 x 12 21 Smaller, deeper reservoir
Sleipner 2002 4 80 800 / 2350 4 x 10 50 Gas production + CO2 injection
OrmenLange
2007 5 295-1130 2000 15 x 50 120Second largest gas field in NorwayChallenging oceanography, Shell-operated
Statfjord 2012 2 140-200 2750 5 x 25 53Oil field, subsidence is the main motivation
Midgard 2006 4 240-310 2500 10 x 20 60 Deep reservoir
Snøhvit / Albatross
2007 2 250-340 2500 20 x 20 86 Gas production + CO2 injection
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Gravity for reservoir monitoring
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• Sensitive to changes of density in the subsurface
• It allows monitoring movements of fluid interfaces. Example:
• 𝜌𝑤𝑎𝑡𝑒𝑟 > 𝜌𝑔𝑎𝑠 ⇒ Δ𝑔 > 0 observed• Magnitude proportional to the raise of the contact
• Spatial distribution of Δ𝑔 tells about comparmentalization, permeability, aquifer strengths
Before production start After production start
gas gaswater from aquifers
sea seagravimeter gravimeter
Some applications of gravity
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hydrocarbon
water
Unproducedcompartments? Acquifer
strengths?
Volume ofgas in place?
Accuracy of gravity at the seafloor
1 µGal means:• 10-8 m/s2, or 10-9 g, or 100 kg at 0.8 m
• Sub-meter sensitivity in a gas-water contact
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Year
10 000
1
10
100
1000
Satellite altimeterAirborne
Shipborne
Seafloor
Land
Borehole
Stationary
1998 2002/20052006/2007
20092013
2015
mG
al
Seafloor
Increased recovery
Value of the gravity data
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Infill well planning
Well data
Planning of production, pipeline use
Lateral compart-
mentalization
Aquifer strength
Gravity
Update actual volume of
hydrocarbon reserves
Prediction of water breakthrough
Reservoir parameters
(e. g. permeability)
Understanding reservoir behavior away from wells
Installation of compression
facilities
Seismic
• At a cost ~15% of that of time-lapse seismic
Subsidence
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Subsidence Measured through time-lapse changes in water pressure (after applying tide and environmental corrections)
The value of subsidence data
• Accuracy on subsidence (published values):• Mikkel 2006-2011 time-lapse: 2.5 - 3.7 mm
• Sleipner 2002-2005 time-lapse: 2.3 mm11
Compressibility, pressure depletion
Drilling window for infill wells
Geological model
Installation safety and integrity
Caprock integrity
Reservoir
Overburden
Subsidence(or uplift)
Aquifer Compressibility, permeability
Lateral compartmentalization
Survey setup
• Pressure and gravity measured at each of the concrete platforms (typically 20 minutes)
• Tide gauges deployed during the whole survey at a subset of stations• Allow to refer all pressure measurements to normal sea and
atmospheric conditions• Enables comparison of data from different vintages
• In all:• No storage issues: < 2 Gb per survey• Fast turnaround: three months from survey to final report• Environmental friendly
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Example: Troll field
Field cases
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Troll 2002-2009: subsidence
Pore compressibility:
• Troll West PDO (1991): ~ 80·10-5/bar
• Revised core data (2000): ~ 9·10-5/bar
• Subsidence history-matching: ~ 3·10-5/bar
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Maximum ~1 cm / year
Zero-level stations
http://www.slideshare.net/Statoil/alnes-et-al-gravity-and-subsidence-monitoring
Alnes, H., Stenvold, T. and Eiken, O. [2010] Experiences on Seafloor Gravimetric and
Subsidence Monitoring Above Producing Reservoirs, 72nd EAGE Conf. and Exhib., L010.
Corrected for gas takeout
Troll 2002-2009: 4D gravity
• Significant raise of ~2 m of the gas-water contact observed in some stations already in 2002-2005
• Time-lapse seismic lines shot in 2002 and 2006 showed no evidence of the raise yet• 5-10 m were required for it to be visible over effect of
pressure drop
• Updated aquifer strengths in the reservoir simulation model
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Oil production
Gas production, movement of the water front
http://www.slideshare.net/Statoil/alnes-et-al-gravity-and-subsidence-monitoring
Alnes, H., Stenvold, T. and Eiken, O. [2010] Experiences on Seafloor Gravimetric and
Subsidence Monitoring Above Producing Reservoirs, 72nd EAGE Conf. Exhib, L010.
Mikkel 2006-2011: 4D gravity
• Initial uncertainties on:• External aquifers• Total volume of gas
• The system has low tolerance for water production due to risk of hydrate formation
• Results show lower water influx than expected
• Aquifer volume reduced by factor 4
• Mikkel contains more gas than expected
• This input enabled:• Better prediction of water breakthrough• Better long term planning
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From Vevatne, J. N., et al., [2012] Use of Field-wide Seafloor Time-lapse Gravity in History Matching the Mikkel Gas Condensate Field, 74th EAGE Conference & Exhibition, Extended Abstracts, F040
Data – model discrepancy Less water than expected More water than expected
Forward-modelled gravity change (µGal)
Midgard 2006-2012: 4D gravity and subsidence• Uncertainties in the model:
• Aquifer support and drainage patterns
• Fault distribution and compartmentalization
• Learnings from 4D gravity and subsidence: one segment underproduced, indicating sealing faults• Reinterpretation of available seismic data
• Updated reservoir model with the sealing fault as the most likely realization
• A new well target was identified, which is now number one producing well in all the Åsgard complex
17Ueland, I., et al., [2015] Modnet fram brønn på utradisjonel vis, Origo Statoil ASA, pp. 40-41 September.
Ormen Lange• Increased recovery involved decisions on:
• Compression facilities
• Infill wells
• Water break-through and compartmentalization identified as a significant uncertainties
• Feasibility studies for measuring water influx:• Nearly impossible with 4D seismics
• Would take > 7 years with EM
• Abstract submitted to EAGE 2017 with Gravitude and Shell authors
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Van den Beukel, A. et al. [2014], Integrated Reservoir Monitoring of the Ormen Lange field: Time lapse seismic, Time lapse gravity and seafloor deformation monitoring, The Biennial Geophysical Seminar, NPF, Kristiansand 2014
Forward-modelled gravity change (µGal),
2 years time-lapse
Outtake
Water influx
Dunn et al., A long-term seafloor deformation monitoring campaign at Ormen Lange gas field, first break volume 34, October 2016
Significantly less subsidence than modelled in the south
Measured 2012-2014
Gravitude’s feasibility studies
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Define alternative scenarios reflecting:
• Uncertainties on reservoir model• Value of the new information
Environment conditions• Oceanography• Seafloor quality
Model the strength of 4D gravity and subsidence signals for each alternative scenario
Requirements from installation safety on subsidence precision
Feasibility report• Ability to distinguish reservoir scenarios• Increased safety from subsidence monitoring• Survey design and cost
Value of the gravity and subsidence data
Optionally
Conclusions
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• 4D gravity - subsidence surveys provide:
• Key information for reservoir management, e.g.
• Movement of fluid contacts
• Identification of non-producing compartments
• Reservoir compaction
• Information for whole-field – not only producing wells
• Improved safety of the field and installations
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Thank [email protected]