利用激光诱导荧光对多孔介质中非水相液体溶解进行的孔隙尺度研究。

Pore-scale study of nonaqueous phase liquid dissolution in porous media using laser-induced fluorescence.

作者信息

Fontenot Mirrya M, Vigil R Dennis

机构信息

Department of Chemical Engineering, Iowa State University, 2114 Sweeney Hall, Ames, Iowa 50011, USA.

出版信息

J Colloid Interface Sci. 2002 Mar 15;247(2):481-9. doi: 10.1006/jcis.2001.8158.

DOI:10.1006/jcis.2001.8158

PMID:16290489

Abstract

Little quantitative, experimental pore-scale information exists regarding nonaqueous phase liquid (NAPL) ganglia undergoing dissolution in porous media. By using refractive index matched fluids and porous media, we have been able to nonintrusively visualize NAPL dissolution (at constant capillary numbers) in three dimensions using laser-induced fluorescence. The results provide dynamic, quantitative information regarding ganglia surface area, volume, position, and shape. It appears that ganglia smaller than a few pore volumes are spheroid, whereas larger ganglia exhibit a fractal area to volume scaling. Evidence of ganglia breakup is found for all capillary numbers studied. Mobilization, however, is only important at higher capillary numbers.

摘要

关于非水相液体（NAPL）在多孔介质中溶解的团块，几乎没有定量的实验孔隙尺度信息。通过使用折射率匹配的流体和多孔介质，我们能够利用激光诱导荧光在三维空间中以非侵入方式可视化（在恒定毛细管数下）NAPL的溶解过程。结果提供了关于团块表面积、体积、位置和形状的动态定量信息。似乎小于几个孔隙体积的团块呈球状，而较大的团块则呈现分形的面积与体积比例关系。在所研究的所有毛细管数下都发现了团块破裂的证据。然而，只有在较高的毛细管数下，流动才具有重要意义。

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利用激光诱导荧光对多孔介质中非水相液体溶解进行的孔隙尺度研究。

Pore-scale study of nonaqueous phase liquid dissolution in porous media using laser-induced fluorescence.

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