Preventing buoyancy-driven flows of two Bingham fluids in a closed pipe – Fluid rheology design for oilfield plug cementing

被引：0

作者：

I.A. Frigaard

J.P. Crawshaw

机构：

[1] Schlumberger Dowell,

[2] Schlumberger Cambridge Research,undefined

来源：

Journal of Engineering Mathematics | 1999年 / 36卷

关键词：

Bingham fluids; multi-layer flow; no-flow/yield criteria; stability; variational methods.;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The mechanically unstable situation of a heavy Bingham fluid resting on top of a light Bingham fluid in an inclined closed-ended pipe can be stabilised if the fluids have sufficiently large yield stresses. This paper focuses on determining the yield stresses that are sufficient to keep the fluids statically stable for a given fluid density difference, pipe diameter and pipe inclination. The results are applicable to a broad class of practically observable flows. This situation provides an idealised model for the oilfield process of plug cementing.

引用

页码：327 / 348

页数：21

共 12 条

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[3] Yarusso B. J.(1998)Stratified exchange flows of two Bingham fluids in an inclined slot J. Non-Newtonian Fluid Mech. 78 61-87
[4] Mossolov P. P.(1991)The axial flow of a Bingham plastic in a narrow eccentric annulus J. Fluid Mech. 222 39-60
[5] Miasnikov V. P.(1985)Creeping motion of a sphere through a Bingham plastic J. Fluid Mech. 158 219-244
[6] Frigaard I. A.(undefined)undefined undefined undefined undefined-undefined
[7] Walton I. C.(undefined)undefined undefined undefined undefined-undefined
[8] Bittleston S. H.(undefined)undefined undefined undefined undefined-undefined
[9] Beris A. N.(undefined)undefined undefined undefined undefined-undefined
[10] Tsamopoulos J. A.(undefined)undefined undefined undefined undefined-undefined

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