受限几何形状中流量控制破碎的机制：通往单分散乳液的途径。

Mechanism for flow-rate controlled breakup in confined geometries: a route to monodisperse emulsions.

作者信息

Garstecki Piotr, Stone Howard A, Whitesides George M

机构信息

Chemistry and Chemical Biology Department, Harvard University, 12 Oxford Street, Cambridge, Massachusetts, USA.

出版信息

Phys Rev Lett. 2005 Apr 29;94(16):164501. doi: 10.1103/PhysRevLett.94.164501. Epub 2005 Apr 27.

DOI:10.1103/PhysRevLett.94.164501

PMID:15904231

Abstract

This Letter describes a quasistationary breakup of an immiscible, inviscid fluid at low capillary numbers. The breakup proceeds in a coflowing, viscous liquid, in a confined geometry of a long and narrow orifice. In contrast to the capillary instability in an unbounded fluid, the collapse proceeds through a series of equilibria, each yielding the minimum interfacial energy of the fluid-fluid interface. The process is slow in comparison to typical relaxation speeds of the interface, and it is reversible. Its quasistatic character of collapse forms the basis for controlled, high-throughput generation of monodisperse fluid dispersions.

摘要

这封信描述了在低毛细管数下不混溶、无粘性流体的准静态破裂。破裂发生在一种共流的粘性液体中，处于狭长孔口的受限几何形状中。与无界流体中的毛细管不稳定性不同，破裂通过一系列平衡进行，每个平衡都产生流体 - 流体界面的最小界面能。与界面的典型弛豫速度相比，该过程较慢，并且是可逆的。其准静态破裂特性为可控、高通量生成单分散流体分散体奠定了基础。

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受限几何形状中流量控制破碎的机制：通往单分散乳液的途径。

Mechanism for flow-rate controlled breakup in confined geometries: a route to monodisperse emulsions.

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