Forties is a giant North Sea oil field with an estimated 4.2 billion to 5 billion barrels of oil initially in place. The field has been producing since 1975 and by year-end 2015 had produced more than 2.7 billion barrels of cumulative oil production. The peak production rate exceeded more than 500,000 barrels of oil per day (BOPD) in 1979, and since then more than 3.8 billion barrels of water have been injected into the field. The majority of the field is now water swept due to the combined effect of water injection and extensive depletion supported by a large underlying aquifer. The ability to identify the few remaining unswept portions of the reservoir has elevated 4D seismic into a key technology to derisk all new wells drilled at Forties. The types of 4D targets at Forties are ever-evolving as continuous improvements in seismic acquisition and processing technologies deliver higher quality time-lapse seismic data. With every subtle improvement in 4D repeatability, additional and sometimes unexpected information about the reservoir has come to light. Historically the primary and most robust 4D effect was an increase in impedance (i.e., a “hardening” effect), which could be mapped confidently to identify areas where water was replacing oil. As 4D repeatability improved, it became evident that a decrease in impedance (i.e., a “softening” effect) was observed in many areas in the reservoir. Further analysis revealed that this type of 4D response was highlighting areas where oil had resaturated previously swept reservoir, forming a new type of infill target in the Forties portfolio called resaturation targets. Since drilling the first 4D resaturation target in 2011, 22 of these targets have been drilled with an 86% success rate, delivering 15 million barrels of new oil production from the Forties Field.
A novel 4D methodology by targeting softening responses, a decrease in impedance over time, is described from the Forties Field. It is demonstrated that these anomalies identified areas where oil had re-saturated previously swept rock. When first observed in some of the older vintages of 4D data, softening responses were dismissed as side lobes of underlying water-swept reservoirs. With improved 4D data quality, softening responses were seen to be clearly responding to an acoustic softening effect isolated in the reservoir. Pressure measurements ruled out hypotheses of gas exsolution or geomechanically induced dilatation of the overlying shale.At the time of writing 22 re-saturation targets had been drilled at Forties with an average water saturation (Sw) of 28%, close to virgin conditions. These results indicated that a previously swept sand can be re-saturated to near initial oil conditions.The driving mechanism behind the re-saturation is understood to be related to changes in both production offtake and water injection. The resulting complex hydrodynamic interactions appeared to be moving banks of oil around the field. From 2011 to year-end of 2015 re-saturation targets produced 14.6 MMBO and were a key target type at the Forties Field.
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