SPE Annual Technical Conference and Exhibition 2008
DOI: 10.2118/116748-ms
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The Impact of Gravity Segregation on Multiphase Non-Darcy Flow in Hydraulically Fractured Gas Wells

Abstract: Multiphase and non-Darcy flow effects in hydraulically fractured gas wells reduce effective fracture conductivity. Typical proppant pack laboratory experiments are oriented in such a way such that phase segregation is not possible, which results in mixed flow. Tidwell and Parker (1996), however, showed that in proppant packs, gravity segregation occurs for simultaneous gas and liquid injection at laboratory scale (1500 cm 2 ). Although the impact of gravity on flow in natural fractures has been described, prev… Show more

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Cited by 6 publications
(1 citation statement)
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“…Ignoring gravity effects by using single-layer models, which is common practice in the industry, can result in the underestimation of effective fracture conductivity by up to a factor of two (Dickins et al 2008). The density difference causes the water to move downward while gas tends to move upward inside the fracture and formation.…”
Section: Steps In Modeling Fracture-fluid Cleanupmentioning
confidence: 99%
“…Ignoring gravity effects by using single-layer models, which is common practice in the industry, can result in the underestimation of effective fracture conductivity by up to a factor of two (Dickins et al 2008). The density difference causes the water to move downward while gas tends to move upward inside the fracture and formation.…”
Section: Steps In Modeling Fracture-fluid Cleanupmentioning
confidence: 99%