--> ABSTRACT: Reservoir Monitoring with Cased-Hole Formation Resistivity, by Austin Boyd, Sherif Farag, Gilles F. Rouault, Isabelle Dubourg, Anne McDougall, and Paul Béguin; #90906(2001)
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Austin Boyd1, Sherif Farag2, Gilles F. Rouault3, Isabelle Dubourg3, Anne McDougall3, Paul Béguin3

(1) Schlumberger, Ridgefield, CT
(2) Schlumberger, Jakarta, Indonesia
(3) Schlumberger, Clamart, France

ABSTRACT: Reservoir Monitoring with Previous HitCasedNext Hit-Previous HitHoleNext Hit Formation Resistivity

Monitoring hydrocarbon saturation changes in Previous HitcasedNext Hit holes has traditionally been determined by pulsed neutron logging Previous HittoolsNext Hit. When used in time-lapse applications, changes in reservoir fluid saturation can be monitored over time and the progress of water flood or gas injection programs can be evaluated. Many clients would like to use resistivity devices to complement pulsed neutron logs because they offer a much greater depth of investigation and higher dynamic range in low porosity formations. Until recently, the use of resistivity devices for this purpose has been restricted to fibreglass Previous HitcasedNext Hit wells. Limitations of this approach include the added cost of the fibreglass casing, collapse of the fibreglass casing during cementing, and incomplete characterisation of other logging Previous HittoolsNext Hit for this environment.

The recent introduction of the Previous HitCasedNext Hit Previous HitHoleNext Hit Formation Resistivity Tool (CHFR*) provides a deep resistivity measurements in steel Previous HitcasedTop wells. The CHFR has been undergoing field-testing in many fields world-wide and has made over 45 jobs in a variety of casing sizes. The ability to measure formation resistivity through steel casing adds a new dimension to reservoir monitoring by allowing the evaluation of fluid saturation further away from the well bore and less affected by mud filtrate and acid. The measurement also has a greater dynamic range in low porosity or low salinity formations. When integrated with Sigma and Carbon/Oxygen logging, the identification of swept zones, flow barriers, or bypassed oil, the movement of fluid contacts, and the estimation of residual oil saturation can be achieved with greater accuracy and confidence.

*Mark of Schlumberger

AAPG Search and Discovery Article #90906©2001 AAPG Annual Convention, Denver, Colorado