SU996917A2 - Drop life span measuring device - Google Patents

Description

The invention relates to instrumentation engineering, in particular, to the field of measuring parameters of liquids and can be used to measure the lifetime of droplets at the liquid-liquid interface, for example, oil drops at the oil-water interface depending on the time of dissolution of impurity molecules, for example, surface -active substances (surfactants) in liquid.

According to the main auth. No. 607132 discloses a device for measuring the lifetime of droplets at the liquid-liquid interface, containing a syringe with a capillary for a liquid under investigation, a syringe with a capillary for a separating liquid, micrometric screws for supplying liquid to the capillaries and a working container the fluid is introduced into the capillary for the test fluid 1.

A disadvantage of the known device is the use in the experiments of pre-prepared surfactant solutions, which eliminates the possibility of detecting the diffusion time of surfactant molecules, in Lidkoti to the oil-water interface.

The purpose of the invention is to make it possible to determine the effect of the diffusion time of an impurity in a drop of the test liquid on the life of the droplets.

The goal is achieved by the fact that a device for measuring the lifetime of droplets at the liquid – liquid interface, containing

A 10 syringe with a caprum for the test liquid, a syringe with a capillary for the separating liquid, micrometric screws for supplying the liquid to the capillaries and a working container, with a capillary for the separating liquid introduced into the capillary for the studied liquid impurities and a capillary, with the syringe stem connected

20 with a micrometer, and the cavity of the syringe with one end of the capillary, the other end of which is connected to the capillary for the test fluid.

The drawing shows the scheme of the proposed device.

The device consists of an assembly with a separating fluid, comprising a capillary, a syringe 2, and a micrometric screw 3; an impurity unit, including a micrometer screw 4, a syringe 5

and capillary p 6; Wela with the test liquid, including micrometric screw 1, syringe 8 and capillary p 9; couplings 10. The capillaries for the test and separation liquid are connected at point 11, and the capillary for outputting the test and separation liquid is connected to the capillary for impurity at point 12. The capillary: immersed in a vessel with separation liquid 13 and {poured on it a layer of the test fluid 14. The all-device is fixed to the tripod 15.

Example. Investigate the life time of drops of a high-viscosity oil-Russian deposit in tap water. As a surfactant, an imported (Japan) oil-soluble SU-100 demulsifier is tested. Each experiment was carried out 6-10 times, after which the arithmetic average of the lifetime of the oil droplets was taken.

The table shows the results of measuring the lifetime of oil droplets in various conditions using the proposed device.

1-2 (continuous movement of the rosary)

15 60

The table shows that with an increase in the time of dissolution of surfactants in oil droplets, their life time increases, i.e. with an increase in the time of dissolution of surfactants in oil due to diffusion to the interface of oil, water has time to diffuse more surfactant molecules.

The device can be used to identify the most effective surfactants for oil dehydration, as well as to create direct emulsions when hydrotransporting oil products through pipelines.

Claims (1)

1. USSR author's certificate 607132, .kl. G 01 N 13/02, 1976-. gd-1