SU1099245A1 - Hydrostatic densitometer - Google Patents

Abstract

1. HYDROSTATIC PLOTNOMER, containing a W-shaped tube with elongated side bends and measuring scale, is also rant with the fact that, in order to achieve measurement accuracy and ease of use of the density meter, the side bends in the upper part are equipped with iridescent devices located at the same level and having the same cross-sectional area at the place of overflow, and the measuring scale is located on the side of one of the tribes of the U-shaped part of the W-shaped tube. 2. The densitometer of claim 1, wherein the U-shaped portion of the W-shaped tube is transparent.

Description

The invention relates to a measurement technique and can be used to measure the density of a liquid in pipelines and vessels, for example, in a flow meter with variable viscosity. A well-known hydrostatic pressure gauge with an inverted V-shaped transparent tube, lowered by one knee, into a pump filled with a standard liquid, and the other into the test liquid. Measurements using such a densitometer are made after pumping out air from the upper part of the tubes, and the height of elevation of fluids in the knees is inversely proportional to their densities 1 3. The disadvantage of such a densitometer is the low accuracy of measurement due to the change in density of the compared liquids during vacuum undissolved air and the transition of dissolved air to insoluble, which in turn destroys the degree of vacuum. The closest to the technical essence of the invention is a hydrostatic densitometer containing a W-shaped transparent tube with elongated lateral elbows C 21. When working from above, one of the lateral elbows of the densitometer is poured with a standard liquid and into the other one. In the middle part of the W-shaped tube, an air-separating cavity is formed between the fluids. The liquid is poured so that the levels in the middle part are the same. The density of the test liquid is determined according to the measurements of the urbs on the scales located in the upper part near the lateral ruts, according to the formulas. . the density corresponds to GDe rn and p but to the test and reference liquids; the level of the respective test and reference liquids. The disadvantage of the densitometer is the low measurement accuracy due to the difficulty of accurately establishing an equal level in the middle part of the W-tube, as well as the need to increase the length of the side bends (up to several meters), which leads to inconvenience in operation. The purpose of the invention is to improve the measurement accuracy and ease of use of the meter. This goal is achieved by the fact that in a hydrostatic densitometer containing a W-shaped tube with elongated side bends and a measuring scale, the side knees in the upper part are equipped with overflow devices located at the same level and having the same cross-sectional area at the overflow point, and the measuring scale is located from the side of one of the tribes of the U-shaped part of the W-shaped tube. Besides, . The L-shaped part of the W-shaped tube is transparent. The drawing shows the proposed hydrostatic densitometer. Hydrostatic densitometer consists of vertical pipes 1 and 2 (side, elbows) filled, respectively, with reference and test liquids, overflow devices 3 and 4, located: on the same level and having the same cross-sectional area at the place of overflow, measuring scale 5, which is located on the side of one of the knees of the transparent transparent tube about a different part of a 6 W-shaped tube, a shut-off valve 7, which is installed at the junction of the U-shaped tube with tube 2 and is necessary to separate them when changing the liquid in the tube without a shut-off valve 8, which is necessary for filling the upper part of the U-shaped part W / -shaped. Air tube or separation fluid, valve 9, which serves to supply test fluid to pipe 2 from the working line, stop valve 10 dp of filling and draining the reference liquid from pipe 1, three-way valve 11, which serves to fill pipe 1 with control liquid. Hydrostatic densitometer works as follows. With the shut-off valve 7 closed, through the valve 10 fill the reference liquid into the U-shaped part of the W-shaped tube to a level convenient for reading on a scale of 5. Then open the shut-off valve 8 to fill the remaining

the space of the ft-shaped part of the W-shaped tube separating fluid. Further, with the valve 10 open, the vertical pipe 1 is filled with the reference liquid until it overflows through the overflow device 3. With the valve 9 open, the vertical pipe 2 is filled with the test liquid until the transfer through the overflow device A, then the valve 9 is closed, shut-off valve 7 and read the readings h - the difference in the knees of the U-shaped part of the W-shaped tube.

The difference in the densities of the reference and test liquids is determined by the formula

Lr-nZT Ya. Grr). (2)

- density of appropriately standard and separating liquids}

h is the difference of the levels in the knees of the U-shaped part,

 the value of 1 (and the level of fluid measured from the overflow device in pipe 1 with the reference medium to the level of fluid in the knee is U-shaped

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tube with the test medium.

If air is used instead of separating fluid, then

.

To determine the effectiveness of the application of the separation fluid, equation (2) is converted to h as follows:

11. R. (3)

It can be seen from formula (3) that for determining the density is measured. Only one value — the difference in the levels of the reference and test liquids by one scale — instead of three values (formula 1) in the known device, which reduces the total density measurement error.

The implementation of a W-tube with a shorter knee length, as well as the provision of full-time installation of levels in the side knees and ease of reading from the middle part of the W-shaped tube leads to a significant improvement in ease of use.

Densitometer can be applied when measuring the density of a liquid in closed hydraulic systems of installations and process lines without disturbing their tightness at any time.

Claims (2)

1. HYDROSTATIC DENSITY METER, comprising a W-shaped tube with elongated side elbows and a measuring scale, characterized in that, in order to improve the measurement accuracy and ease of use of the densitometer, the side elbows in the upper part are equipped with overflow devices located at the same level and having the same cross-sectional area at the overflow site, and the measuring scale is located on the side of one of the elbows of the U-shaped part of the W-shaped tube. 2. The densitometer according to claim 1, wherein the U-shaped part of the W-shaped tube is made transparent.