SU1002903A2 - Viscosity primary converter - Google Patents

Description

(5th PRIMARY VISCOSITY CONVERTER

one

The invention relates to the study of the physicochemical properties of liquids and can be used in scientific and technical experiments where the determination of the exact viscosity of technological liquids, for example, in the refining, paint and varnish, chemical industries is required.

According to the main auth. K known as the primary viscosity converter, used to measure the viscosity of the test liquid. The capillary in this device is equipped with an internal insert, made in the form of longitudinally mounted intersecting plates between the floor, which is placed between the pressure drop lines 1 and 1.

When this viscosity transducer is used, the measurement accuracy is low because the pressure drop selection lines are connected to the capillary at some distance from the ends of the intersecting plates, and this is removed. Accuracy of measurement of additional pressure loss at unsteady flow at the ends of the plates and the capillary. The use of conventional reception in this converter to eliminate the input effect, namely, the selection of pressure drop selection lines at the level of the crossing plates, without additional constructive transformations, does not give the expected increase in the accuracy of the measurement1, since the cavities formed by the crossing plates are isolated from each other. viscosity will give a differentiated result that varies from measurement to measurement and depends on local conditions in the cavity.

and, the invention is an improvement in measurement accuracy.

Claims (2)

The goal is achieved by the fact that the primary viscosity converter containing a capillary with pressure drop selection lines, provided with an internal insert made in the form of longitudinally mounted intersecting plates, additionally contains annular chambers, in the side surface of the capillary there are annular grooves with In this case, the capillary cavities formed by the overlapping plates are connected to the annular chambers by annular grooves, and the pressure drop selection lines are connected to rotating arm cameras. The drawing shows a primary viscosity converter, a slit. It contains a capillary p 1, equipped with an internal insert, made in the form of a longitudinally mounted intersection. interchangeable plates 2, annular grooves 3 made inside the capillary walls, and annular chambers k, connected to the selection lines, of the pressure drop. . The converter operates as follows. A liquid under test is fed to a horizontally set capillary 1 under direct pressure. When the viscosity of the test liquid changes, the resulting pressure drop changes, which is a measure of the viscosity and. can be measured by known methods. . i Meaning that in the proposed transducer, the capillary is equipped with an internal insert made in the form of intersecting plates, installed at an IQ distance from the edges of the capillary, it is necessary to take into account the input effects caused by the ends of the intersecting plates when installing the pressure sampler. To eliminate these effects (s, the selection should be made at a certain distance of the edges of the plates, the value of which is determined experimentally. Specifically for, 2,3, (where mf is the number of intersections of the plates) Alji, respectively, is 2; 2,96; tjl; 1; 5.5 mm. At these values (D1, viscosity values are obtained which are close to those determined by other viscometers, for example 2. By setting the sampling pressure device at a distance of 1 9034 tons of the edges of the plates, one can achieve the highest accuracy in measuring the viscosity of the fluid being traced. Taking this into account, the formula for determining the coefficient of viscosity can be represented as follows: L P –K gqleHo ve,) de I is the length of the capillary between the annular chambers; the pressure required to push the fluid through the capillary with the plates; capillary radius; d is the flow rate of the test liquid. The prototypes of a capillary with diameters of 3.5, 8.10 mm, and a working section length of CO equal to 170, 190, 200, 250 mm, as well as various numbers of intersecting plates (, 3.) Were made and tested in laboratory conditions. x at various concentrations of the aqueous glycerin solution. The most effective proved. capillary r. 5 km , The measurement error does not exceed 1.251 from the upper limit of measurement. The technical and economic effect of the invention is to improve the accuracy of viscosity measurement, which is achieved by supplying the channel with annular chambers and inserts located at the level of the intersecting plates. Claims of the invention Pervich.chny viscosity converter according to author. No., in order to improve the measurement accuracy, it further comprises annular chambers; annular grooves are made in the side surface of the capillary; The differential pressure is connected to annular chambers. Sources of information taken into account in the examination 1. Copyright certificate ff, cl. G 01 N 11/08, 1980.