黏弹性聚合物水溶液异常增油驱替机理

Mechanism of anomalously increased oil displacement with aqueous viscoelastic polymer solutions.

作者信息

Clarke Andrew, Howe Andrew M, Mitchell Jonathan, Staniland John, Hawkes Laurence, Leeper Katherine

机构信息

Schlumberger Gould Research, Madingley Road, Cambridge, UKCB3 0EL.

出版信息

Soft Matter. 2015 May 14;11(18):3536-41. doi: 10.1039/c5sm00064e.

DOI:10.1039/c5sm00064e

PMID:25797578

Abstract

Single-phase flows of viscoelastic polymer solutions in both microfluidic devices and rock cores exhibit apparent flow thickening. We demonstrate that this thickening occurs above a critical Deborah number corresponding to the onset of spatio-temporal fluctuations. These fluctuations are observed to occur over a broad range of spatial and temporal scales consistent with elastic turbulence. The fluctuations provide a previously unreported mechanism for enhancing the displacement of a second, capillary trapped, immiscible phase.

摘要

在微流控装置和岩心中，粘弹性聚合物溶液的单相流均表现出明显的流动增稠现象。我们证明，这种增稠现象发生在对应于时空波动开始的临界德博拉数之上。观察到这些波动发生在与弹性湍流一致的广泛空间和时间尺度范围内。这些波动提供了一种此前未报道的机制，可增强第二种毛细管捕集的不混溶相的驱替。

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黏弹性聚合物水溶液异常增油驱替机理

Mechanism of anomalously increased oil displacement with aqueous viscoelastic polymer solutions.

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