Capillary bundle flow measurement device and measurement method for nanoemulsion

A technology of capillary bundles and nanoemulsions, applied in the direction of direct current flow characteristics measurement, etc., can solve problems such as difficult to reproduce, long time, non-reproducibility, etc., to improve the accuracy of measurement, reduce operating errors, and solve the effect of preparation time

Inactive Publication Date: 2017-09-15
CHINA UNIV OF PETROLEUM (EAST CHINA)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, at present, due to the thermodynamic instability of the nanoemulsion particle size, the measurement of the flow law of the nanoemulsion is difficult to repeat and reproduce, which greatly limits the application of the nanoemulsion.
The patent CN201310130666 has produced a polymer-stabilized nanoemulsion through the inverse emulsification method. The method provided is to add the emulsifier and the water phase drop by drop. It takes a long time to prepare the nanoemulsion in this way, and the prolongation of the preparation time is also can lead to changes in the particle size and distribution of nanoparticles
In addition, the transfer between containers during the measurement process of the prepared nanoemulsion will have a shearing effect on the nanoemulsion particles, and the external shear stress also has a great influence on the particle size and other properties of the nanoemulsion, which leads to The inaccuracy and non-reproducibility of the measurement results, which in turn affects the evaluation of the application effect

Method used

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  • Capillary bundle flow measurement device and measurement method for nanoemulsion
  • Capillary bundle flow measurement device and measurement method for nanoemulsion
  • Capillary bundle flow measurement device and measurement method for nanoemulsion

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Experimental program
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Effect test

Embodiment 1

[0051] Based on 100 parts by weight, the nanoemulsion includes the following components: liquid paraffin 20 parts, non-ionic surfactant Span 20 accounts for 4.88 parts, Tween 20 accounts for 5.12 parts, and the balance is deionized water. The mechanical stirring rate is 750 revolutions per minute, the electromagnetic stirring rate is 100 revolutions per minute, the temperature is 25°C, the rate of the first injection pump is 0.5 mL / min, and the rate of the fourth injection pump is 9.99 mL / min. The length of the capillary is 1m, the inner diameter is 0.2mm, and the number is 10. The data acquisition system collects pressure changes and obtains the flow of nanoemulsion in the capillary bundle. The particle size of the nanoemulsion under different conditions is measured and characterized by a nano laser particle size analyzer.

Embodiment 2

[0053] The nanoemulsion is based on 100 parts by weight and includes the following components: liquid paraffin accounts for 20 parts, non-ionic surfactant Span 20 accounts for 4.88 parts, Tween 20 accounts for 5.12 parts, and the balance is deionized water. The mechanical stirring rate is 750 revolutions per minute, the electromagnetic stirring rate is 1000 revolutions per minute, the temperature is 25°C, the rate of the first injection pump is 0.5 mL / min, and the rate of the fourth injection pump is 9.99 mL / min. The length of the capillary is 1m, the inner diameter is 0.2mm, and the number is 10. The data acquisition system collects pressure changes and obtains the flow of nanoemulsion in the capillary bundle.

Embodiment 3

[0055] The nanoemulsion is based on 100 parts by weight and includes the following components: liquid paraffin accounts for 20 parts, non-ionic surfactant Span 20 accounts for 4.88 parts, Tween 20 accounts for 5.12 parts, and the balance is deionized water. The mechanical stirring rate is 750 revolutions per minute, the electromagnetic stirring rate is 100 revolutions per minute, the temperature is 25°C, the rate of the first injection pump is 0.5 mL / min, and the rate of the fourth injection pump is 9.99 mL / min. The length of the capillary is 0.5m, the inner diameter is 0.2mm, and the number is 10. The data acquisition system collects pressure changes and obtains the flow of nanoemulsion in the capillary bundle.

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Abstract

The invention discloses a capillary bundle flow measurement device for nanoemulsion, which includes a sample preparation system, a sample introduction system and a measurement system; the sample preparation system includes a first sample feed pump, a first water storage device, a second sample feed pump, a Two water reservoirs, the first intermediate container, the second intermediate container, the first mixing chamber, the second mixing chamber, the third sampling pump, the fourth sampling pump, the fourth water storage, the fourth intermediate container, mechanical mixer , electromagnetic heating stirrer and magnet; the sampling system includes the sixth sampling pump, the sixth water storage, the sixth intermediate container, the seventh intermediate container, valve one, valve two, fifth sampling pump and multi-way valve 1. The measurement system includes a capillary bundle, a multi-way valve 2, a multi-way valve 3, a pressure sensor 1, a pressure sensor 2, a data acquisition system, a data processing system and a metering container. The invention also provides a method for measuring the capillary bundle flow of the nanoemulsion by using the device, which improves the reproducibility, accuracy and usability of the flow experiment data.

Description

Technical field [0001] The invention relates to the technical field of testing fluid flow in a capillary bundle, in particular to a capillary bundle flow measuring device and a measuring method for nanoemulsion. Background technique [0002] Nanoemulsion refers to a colloidal dispersion system formed by two immiscible liquids, and the droplet size range is generally between 50 and 500 nm. The nanoemulsion has small droplet size and uniform particle size, and the amount of emulsifier is greatly reduced compared with microemulsions. Compared with ordinary emulsions, nanoemulsions have the advantages of uniform dispersion and good stability. Nanoemulsions can be used in many fields such as medicine, catalysis, food, petroleum and cosmetics, and have very good application prospects. [0003] At present, the research on the fluidity of emulsions mainly focuses on the micron-sized emulsion system, and it is the flow in porous media. Ordinary emulsions are prone to stratification, coale...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N11/04
Inventor 宫厚健王步娥徐龙董明哲李亚军桑茜朱腾
Owner CHINA UNIV OF PETROLEUM (EAST CHINA)
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