BrightWater ® – A Step Change in Sweep Improvement

1. BrightWater® – A Step Change in Sweep Improvement • - What is it? • - What isn’t it? • - Where did it come from? • Where can it go?

2. Poor Reservoir Sweep EfficiencyBypass Oil

3. BrightWater can help to improve Reservoir Sweep Efficiency, and produce the bypass Oil

4. Outline • What is BrightWater? • How does BrightWater improve waterflood? • Any field success? • How to use in mature fields? • Candidate selection • Tests • Implementation. • Conclusions

5. What is BrightWater® • BrightWater is a technology that improve the sweep efficiency of water flood by using a Novel robust particulate system for in–depth waterflood conformance control • Designed to overcome injectivity and cost limitations of classical polymer treatments. (i.e., injected as small particles then can become larger with time in the presence of a “trigger” - temperature)

6. BrightWater® History • Contributor Involvement • BrightWater®, as a BP project, started in 1997 • It was considered as a speculative, but high-reward project, and was proposed as a • Joint Venture project to the “MoBPTeCh” consortium which has now disbanded. • Nalco was identified as best potential development/supply partner, and joined as equal contributors. • BP • 1998 Mobil, BP, Texaco, Chevron + Nalco • Now: BP, Chevron, Nalco

7. BrightWater® – what it’s not • BrightWater material is NOT a classic viscous polymer • During injection it has viscosity very close to water • It cannot be damaged by shear during injection • It is not active initially • Totally different from conventional gel jobs. • No CAPEX – Simple to deploy

8. No Capex ½” NPT fitting to be used for EC9368A injection Well Head BW Particulate ½” NPT fitting to be used for EC9360A injection 2” Well Line Well House Floor Dispersant

9. What is BrightWater® • BrightWater is particles • The median of the particle size distribution is about 0.3 to 0.5 microns • BrightWater particle is supplied as a dispersion in hydrocarbon solvent • The active content in the dispersion is about 30%

10. What is BrightWater® Bright WaterTM material is a tightly bounded, thermally activated particle injected as a dilute slug which flows with the water and pops open deep in the reservoir and blocks the swept zones. 1 to 10 microns 0.1 to 1 micron Warmth This allows chase water to be diverted into zones that were previously poorly swept.

11. Inert BrightWater Material

12. BrightWater Particles Pre-activated – Activated This magnification is 10x greater than this one Before Expansion Scale bar is 500 nanometers After Expansion Scale bar is 5000 nanometers A polymer particle which is able to propagate throughrock pores without injectivity loss Under the influence of heat the particle expands to a size which can block rock pore throats.

13. Diluted, inert BrightWater (after injection) Activated Time and temperature

15. 5000 ppm 3900 ppm 4500 ppm

16. What is BrightWater® • The injected sub-micron particles are inert - they give virtually no viscosity or adsorption - they are far smaller than the pores they move through • The expanded particles are “sticky” - they have increased solution viscosity, showing they now interact with each other - they act to restrict water flow rate in the reservoir - the restriction can be permanent showing they are interacting with the porous rock

17. BrightWater are Small Crosslinked polymer particles (particle size) to propagate deep into reservoir (pore size)

18. What is BrightWater® • The time before activation can be selected • The strength of the block can be selected • A complete block is not usually the aim or necessary

19. So how does BrightWater work in the reservoir?

20. Usually there is a temperature front set up by cold water injection Temperature Front Still at reservoir temp Cooled by injection

21. Usually there is a temperature front set up by cold water injection BW Temperature Front Still at reservoir temp Cooled by injection

22. Setting BrightWater at a temperature front water Temperature Front

23. Setting at a temperature front can be very convenient and is the ideal and usual mode for hot reservoirs • But we may not need a temperature front • We can select the grade to control the setting time, and set at any temperature up to 80-90C

25. Setting BrightWater in an isothermal case

26. Typical treatment objectives: • Vertical conformance improvement by diverting water from a thief layer • Vertical and horizontal sweep improvement by diverting water from a channel • Slow down water cycling - allow use of increased injection pressure - allow use of increased drawdown at producers

27. BrightWaterList of Field Trials • Minas, Indonesia (Chevron, 2001) • Arbroath, North Sea, UK (BP, 2002) • Milne Point and Prudhoe Bay, Alaska, USA (BP) (several, 2004-5) • Strathspey field, North Sea, UK (Chevron, 2006) • Argentina (several, 2006) • Pakistan (BP, 2006-7) • Alaska (several, 2007) • Being considered:more treatments in Indonesia Australia, Alaska and Gulf of Mexico, USA

29. Alaska Bright Water Applications

30. BP Alaska Field Trial • Trial of pattern treatment, three adjacent injectors, 03-13, 16-11 and 16-16 treated in 2004 - 05 • High water cut at low to medium total Pore Volume injected • Patterns mature to Miscible Injectant with breakthrough time 3 to 4 months

31. Design Process • Candidate selection : criteria; know the reservoir • BrightWater formulation selection • Treatment volume and cost estimation • Implementation plan : QA, Contingency, monitoring • Post treatment plan

32. Characteristics of good Candidate Reservoirs • Sandstone reservoirs • Vertical or horizontal high permeability contrast, Actual sweep efficiency less than anticipated. Presence of bypass oil. • Thief > 150 md; no direct interwell fractures. • Fluid transit time between injector and producers > 50 days • Injection water temperature lower than reservoir temperature (Temperature gradient between injector and producer desired but not necessary). • Down-hole temperature above 50 C.

33. BrightWater Potential Tests desired • Bottle test (injection water, temperature) – to select BrightWater formulation, if needed. • Sandpack Test – to confirm pop time at temperature, if needed. • Interwell water breakthrough estimate: field data; tracer, pressure test - to select BrightWater formulation or identify area of potential bypassed oil, if needed. • Block Test (actual core material) – to select BrightWater concentration. Needed only for very high or very low perm rock • Simple temperature model (distance between wells; reservoir and injection water temperature, rate and duration of water injection) - to estimate thief zone temperature profile. • Simple reservoir model – to estimate potential oil recovery. (Required)

34. Difference between BW and Polymer

35. Conclusions • BrightWater is a new robust pre-crosslinked polymer particle that can expand in size at design temperature and time. • There are successful field implementations (onshore and offshore) • Increase oil production and recovery. • Bullhead into injection line easily, even from a great distance or into subsea completion. • No facilities upset.

36. The Early stage Research team members • BP • Harry Frampton • Jim Morgan • ChevronTexaco • Steve Cheung • Rick Ng • Billy Surles • Les Munson • Nalco Energy Services • K.T. Chang • Dennis Williams

37. Thank you !Questions?