SU877333A1 - Device for measuring suspension consumption in liquid and gas flows - Google Patents

Description

Research institutes, due to the fact that the static pressure of the surrounding flow device is measured far from the sampling point, in particular, at or near the channel wall. Due to the presence of a transverse pressure gradient in the jet streams, the magnitude of the static pressure on the channel wall differs significantly from the static pressure of the flow at the sampling point. This causes large measurement errors.

The purpose of the invention is to improve the measurement accuracy in jet streams.

This goal is achieved by the fact that the proposed device, made in the form of two concentric tubes, in the inner wall of which — the intake — is drilled near the inlet of this tube, the outlet of the sampling tube is connected to the suction flow system, and the cavity between said tubes is connected to one from the cavities of the differential pressure gauge, equipped with an additional tube, located on the outside concentric to the two indicated and connected to them at the ends tightly and stationary, while in the wall to olnitelnoy tubes provided with openings uniformly arranged along the circumference, and the cavities formed between the tubes is connected with another cavity of the differential pressure gauge.

The holes in the wall of the additional tube are made at a distance of three to four diameters of the specified tube from its end on the side of the inlet of the sampling tube.

The presence of an additional tube, located outside concentrically to two previously existing ones, and holes in the wall of the additional tube, which are evenly spaced around the circumference, ensures that a pressure in the newly formed cavity between the inner and additional tubes is equal to the static pressure in the flow surrounding the intake part of the device.

When the flow around the intake part of the device, a complex pressure distribution occurs over the outer surface of the additional tube. At a distance of three to four diameters of said tube from its end, a pressure equal to the static pressure of the surrounding flow is established from the end of the inlet of the sampling tube. Therefore, it is precisely at this distance that it is advisable to make holes in the wall of the additional tube.

All of the above improves the accuracy of measurements in jet streams.

The connection of the two previously mentioned cavities of the device — the cavity between the intake and internal tubes and the platform between the internal and additional tubes — with a differential manometer makes it possible to measure pressures in them, i.e. Static pressures in the flows inside the intake tube and outside the device By adjusting the suction intensity of the sample taken from the flow, the pressure in the specified device cavities, i.e. a zero reading of a differential pressure meter at which the measurement is made.

The drawing shows the proposed device, the cut.

The device contains three concentric tubes 1-3, connected to each other at the ends tightly and motionless. In the wall of the intake tube 1, two holes are made at a distance less than one diameter of this tube from its inlet 4. The outlet hole 5 of the intake tube is connected to system 6 of the sample suction. Formed by the intake tube 1 and the inner tube 2, the cavity 7 is connected to one cavity of the differential pressure gauge 8 by the tube 9. In the wall of the additional tube 3 at a distance of at least three diameters of this tube from its end from the rtoron inlet hole of the sampling tube there are holes 10 that are evenly spaced circle. The cavity 11 between the inner tube 2 and additionally the tube 3 is connected to another cavity of the differential pressure gauge 8 by the tube 12.

Regulation of the intensity of the suction of the fluid is carried out by the valve 13 of the system suction.

To collect the suspension taken from the sample stream, a suspension separator 14 is designed, made in the form of a filter or separator.

The device works as follows.

The device is installed in the test flow so that the axis of the inlet of the intake tube 1 coincides with the direction of flow. By changing the flow area of the valve 13, the suction intensity is changed. This changes the reading of the differential pressure gauge 8. By adjusting the suction intensity, the differential pressure gauge is set to zero. This means that the static pressure of the sample flow inside the intake tube 1 is equal to the static pressure in the flow outside the device. The suspension flow in the separator 14 determines the flow of the suspension through the cross section of the test flow corresponding to the inlet of the intake pipe.

Claims (2)

The proposed device makes it possible, when measuring, to maintain a static pressure at the sampling site equal to the static pressure in the flow outside the device. Due to the equality of these pressures, the test flow at the sampling site does not undergo distortions caused by the introduction of the proposed device into it, which ensures high accuracy of measurements. Invention The device for measuring the flow of suspended matter in liquid or gas flows, made in the form of two concentric tubes, which — the intake — are made close to the inlet of this tube, the outlet of the sampling tube is connected to the system for extracting the sample from the stream, and the cavity between the indicated The logging is connected to one of the cavities of the differential pressure gauge, characterized in that, in order to increase the measurement accuracy in the jet streams, the device is equipped with an additional tube that is located on the outside concentrically with the two indicated and connected to them at the ends tightly and stationary, while the walls of the additional tube have holes evenly spaced around the circumference, and the cavity formed between the tubes is connected to another cavity of the differential pressure gauge. 2. Device POP.1, characterized in that the holes in the wall of the additional tube are made at a distance of three to four diayutes of the specified tube from its end on the side of the entrance | the first hole of the sampling tube, Information source, taken into account during the examination. 1. Astakhov I.V., Trusov V.I. Investigation of the distribution of fuel in the flare when injected into a calm environment and the flow of compressed cold gas. Report of the Moscow Road Institute. M., 1972, p. 9-10. 2. Busroyd R. Gas flow with suspended particles. M., Mir, 1975, p. 116-119 (prototype).