Geological Sequestration of C Carbon Sequestration in Sedimentary Basins Module 4: Sleipner Project Maurice Dusseault Department of Earth Sciences University of Waterloo Most of these slides are from a presentation by: Tore A Torp, Dr.ing., Adviser CO 2 Storage, StatoilHydro ASA, Norway
Geological Sequestration of C 2 Time Magazine, 17. May 2004 Sleipner CO 2 injection: - Decided in In operation since million tonne CO 2 /year Tore A Torp
Geological Sequestration of C North Sea, Sleipner About 2,800 tonnes of carbon dioxide are separated daily from Sleipner West's gas production and injected into the Utsira sandstone formation (aquifer), rather than released to the air. Why? Purely economics from the gov’t… But… Good Politics as well (Norway, EU, StatoilHydro, joint funding…)
Geological Sequestration of C Sleipner 9.5% CO 2 in the produced gas They would … Be penalized a bit by having less pure gas Have to pipeline it at extra cost So… It is better to separate on platform And re-inject the CO 2 into a shallow stratum, the Utsira Sandstone
Geological Sequestration of C Experience with CO 2 & Injection Enhanced Oil Recovery (Texas, Hungary, Turkey, Brazil, Croatia) Natural gas cleaning Transport – Pipelines & Ships Natural gas re-injection Natural gas underground storage But, SLEIPNER is the first project to massively inject CO 2 without EOR application - Sequestration
Geological Sequestration of C 6 CO 2 -tankers, 1500 m 3 capacity Tore A Torp
Geological Sequestration of C 7 Sleipner Facility 2004 Tore A Torp
Geological Sequestration of C Sleipner Facility
Geological Sequestration of C Injection into the Utsira Fmn. CO2 Injection Well in "Utsira" 9 Sleipner A Sleipner T Utsira Formation Heimdal Formation Sleipner Øst Production and Injection Wells CO 2 2 InjectionWell 1000m 2000m 2500m 0 500m 1500m 1000 m m 1500 m Tore A Torp
Geological Sequestration of C The Utsira Formation 10 Tore A Torp
Geological Sequestration of C The Utsira Formation High porosity sandstone ~30% porosity Permeabilities > 1 D (up to +10 D) H 2 O saturated, no gas or oil… 200 m thick, with a modest central shale zone that appears continuous Large volumes available Regionally continuous million m 3 capacity per km 2 Excellent lateral transmissivity!
Geological Sequestration of C 12 Statoil BP ExxonMobil Total Norsk Hydro Vattenfall BGS BRGM GEUS IFP NITG-TNO SINTEF IEA Greenhouse Gas R&D Programme Schlumberger Research NO, DK, NL, FR & UK Authorities SALINE AQUIFER CO 2 STORAGE PROJECT
Geological Sequestration of C CO 2 Zone Growth
Geological Sequestration of C 14 Time-lapse seismic datasets of CO2 stored in Utsira formation Tore A Torp
Geological Sequestration of C 15 1 km Plume outline June 2006 Plume outline Oct 2001 8,4 million tonnes injected over 10 years Plume area: 2,8 km 2 (1,3 km 2 in 2001) Plume long axis: 3760 m Maximum distance from injection point: 2560m Maximum speed of front since 2004: 250 m/year, Distance from CO 2 to wells: Exploration well 15/9-13: 430m, decreasing about 12 m/year D-template: about 2 km straight west of northern plume 15/9-19 wells: about 4,5 km north of plume 3,76 km Plume extension & top Utsira time map saddle Amplitude maps of the uppermost horizon, in 2001 (left), 2004 (middle) and 2006 (right). Hot colours represent higher amplitudes and thicker CO 2 accumulation. 15/ m Injection point Seismic section CO 2 distribution June 2006 Tore A Torp
Geological Sequestration of C 16 Simulated picture of the distribution of CO 2 after three years. Radius of largest bubble 800 m and the total plume 200 m high. Ref: SINTEF Petroleum 2001 Tore A Torp
Geological Sequestration of C 17 Dissolution of CO2 in the Utsira Brine Year 2021 Year 2412 Year 2621Year 5019Year 7018 Source: Gemini No. 1, 2004 (NTNU and Sintef) Tore A Torp
Geological Sequestration of C SACS Project WHAT WAS ACHIEVED: 3D Seismic proven, Gravimetry tested Reservoir simulation tools partly proven Geology and Geochemistry of “Utsira” mapped Reason to expect the CO 2 to stay for thousands of years DOCUMENTATION “SACS Best Practice Manual, 1.version.” Download from see page “SACS”. Tore A Torp
Geological Sequestration of C 19 Demonstrations of CO 2 storage SLEIPNER SNØHVIT WEYBURN IN SALAH GORGON K12B Source: IEA GHG FRIO BRINE KETZIN Nagaoka
Geological Sequestration of C 20 Sleipner CO2 Injection
Geological Sequestration of C 21 What is keeping the CO 2 there? Trapping Mechanisms Closure - from day one – faults? Micro-pore trapping - during injection - lasting Dissolution in water - sinking to the bottom – centuries Mineral binding - precipitating solids – centuries/millennia Tore A Torp
Geological Sequestration of C 22 Possible Leakage? Leakage paths? WELLS - Corrosion of cement & steel Faults/Cracks – Overpressure critical Underground fluid mobility – Site specific Prevention Detection Remediation Tore A Torp
Geological Sequestration of C Monitoring: Safety Over TIME? Before start: Site selection, Planning and Risk assessment =>licence During injection: Monitoring – “Watch the barn doors” => report Closure: Monitoring and long-term risk => agreement Post-closure: Monitoring gradually less => hand-over Safety against leakage will be better over time! 23 Tore A Torp
Geological Sequestration of C CO 2 Capture and Storage (CCS) 24 Leg 2: COST of Capture Energy use Costs Better technologies Leg 1: TRUST in Storage Methods from oil and gas industry Geology varies from place to place More demonstrations Pace: CO 2 Transport Pipeline Ship Large projects Tore A Torp
Geological Sequestration of C 25 Vision
Geological Sequestration of C Total Lacq Project (~60 MM €) Gas processing plant Steam needs, to be done with CH 4 + O 2 This results in almost pure CO 2 + H 2 O So, they plan to inject the CO 2 into the Lacq natural gas reservoir, displace a little bit more gas 150,000 t in 2 yrs, starting in 2008 …the first integrated CO 2 capture system using oxy-fuel combustion combined with storage in a depleted hydrocarbon field.
Geological Sequestration of C SUMMARY… First genuine sequestration project High permeability, high porosity reservoir for the CO2, good seal, etc. Not fully driven by economics (gov’t subsidy) A model for future sequestration projects…