1991
DOI: 10.2118/17717-pa
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Stimulation-Fluid Systems for Naturally Fractured Tight Gas Sandstones: A General Case Study

Abstract: Summary Extensive production testing and core analyses show that production from thelow-permeability sandstones in the Mesaverde formation at the U.S. DOEMultiwell Experiment (MWX) field laboratory is dominated by natural fractures. Stimulation data strongly suggest that damage to the narrow natural fracturessignificantly affects post-stimulation production. This paper summarizes thefield data that show evidence for production from natural fractures and fordamage to those narrow natural fract… Show more

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Cited by 7 publications
(3 citation statements)
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“…The product T r X r is calculated to be 0.32 x 106 mdm 3 /mPa.s (11.32 x 106'md-ft3/cp) from equation (15). This leads to a hydraulic fracture half-length equal to 76.2 m (250 ft).…”
Section: Examplementioning
confidence: 99%
“…The product T r X r is calculated to be 0.32 x 106 mdm 3 /mPa.s (11.32 x 106'md-ft3/cp) from equation (15). This leads to a hydraulic fracture half-length equal to 76.2 m (250 ft).…”
Section: Examplementioning
confidence: 99%
“…For practical purposes, the wells in this study are considered to be vertical. Several fluid systems such as slickwater, crosslinked gel, and hybrid systems as well as different types of proppant are typically used when hydraulic fracturing in tight gas reservoirs (Sattler et al 1991;Cipolla et al 2010;Palisch et al 2010). In this study, the cases were modeled using slickwater, using a reference treatment design consisting of approximately 1,500 bbl, with a viscosity of 1 cp, and 73,000 lbs of 20/40 Brady sand, based on common practices in analog fields.…”
Section: Hydraulic Fracture Modelingmentioning
confidence: 99%
“…The clean-up can be a very slow process in tight and/or depleted reservoirs (9,(13)(14)(15)(16) . Furthermore, the process of evaporation is much slower in tighter rocks (9)(10)(11)(12) .…”
Section: Introductionmentioning
confidence: 99%