纳米气泡和乳液粒径分布的相互作用测定仪

International journal of the Society of Materials Engineering for Resources Pub Date : 2018-09-30 DOI:10.5188/ijsmer.23.158

T. Fujita, Takeshi Kurose, Josiane Ponou, Gjergj Dodbiba, A. Shibayama, A. Otsuki

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引用次数: 3

摘要

如图所示，介质颗粒在样品溶液中分散在半球和平板之间的行为示意图。纳米气泡是用加压泵或在水或油中制备的。制备的纳米气泡在数天以上稳定。采用均质机将油、水和表面活性剂混合制备纳米乳液(w/o型)，稳定数月以上。制备的气泡和乳液在液体中的粒径分布通常采用动态光散射法测量。但由于分散颗粒与溶剂之间的折射率较小，且颗粒体积较小，光散射法难以测量颗粒尺寸。本文采用电场作用下分散纳米气泡与乳状液相互作用力的动态测量方法，对任意一种小粒径分布进行了测量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nano Bubble and Emulsion Size Distribution Measurement by Interactive Force Apparatus

Schematic diagram of behavior of dielectric particles dispersed in sample solution between the hemisphere and ﬂ at plate is shown Nano bubbles are prepared by using a pressurized pump or ﬁ ne ceramics in water or oil. The prepared nano bubbles are stable for more than several days. Nano emulsion (w/o type) is prepared by mixing oil, water and surfactant with homogenizer and stable more than several months. The prepared bubble and emulsion size distribution in liquid is usually measured by dynamic light scattering method. However, it is dif ﬁ cult to measure the particle size for smaller refractive indexes between dispersed particle and solvent by the light scattering method and small amount of particle volume. Here, the dynamical method of interactive force measurement between dispersed nano bubble and emulsion under electric ﬁ eld has been used to measure any kind of small particle size distribution.

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来源期刊

International journal of the Society of Materials Engineering for Resources

CiteScore

0.10

自引率

0.00%

发文量