2008
DOI: 10.2174/1876973x00801010019
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Numerical Modelling of Cuttings Transport with Foam in Inclined Wells

Abstract: Abstract:In this study, a 1-D transient state mechanistic model of cuttings transport with foam in inclined wells has been developed. The model is solved numerically to predict the optimum foam flow rate (liquid and gas rate) and rheological properties that would maximize cuttings transport efficiency in inclined wells. A detailed sensitivity analysis of the effect of gas and liquid flow rates, drilling rate, foam rheological properties, borehole geometry, wellbore inclination and the rate of gas and liquid in… Show more

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Cited by 2 publications
(1 citation statement)
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“…The impact of changing hole eccentricity has also not been extensively studied by these experimental methods. Several one-dimensional (across the wellbore) and two-dimensional (across cross-sectional flow area) numerical studies on cuttings transport with a variety of drilling fluids have been conducted (Guckes, 1975;Nguyen and Rahman, 1996;Ozbayoglu et al, 2005;Osunde and Kuru, 2006;Zaisha et al, 2012). However, the use of CFD provides an unparalleled opportunity of analysing multiphase flows in three dimensions.…”
Section: Related Literaturementioning
confidence: 99%
“…The impact of changing hole eccentricity has also not been extensively studied by these experimental methods. Several one-dimensional (across the wellbore) and two-dimensional (across cross-sectional flow area) numerical studies on cuttings transport with a variety of drilling fluids have been conducted (Guckes, 1975;Nguyen and Rahman, 1996;Ozbayoglu et al, 2005;Osunde and Kuru, 2006;Zaisha et al, 2012). However, the use of CFD provides an unparalleled opportunity of analysing multiphase flows in three dimensions.…”
Section: Related Literaturementioning
confidence: 99%