SU1275211A1 - Flowmeter - Google Patents

Abstract

The invention can be used in the monitoring and research of steam-heat treatment processes of oil-bearing formations. The purpose of the invention is to improve the accuracy of measuring the flow rate of wet steam. Installed in the extended section 2 of the housing 1, the disk 3 is made with symmetrical cutouts of arbitrary shape. The choice of the ratio of the areas of the disk and the cut-out part in the range of 0.6-0.75 determines the optimal moving moment of resistance of the sensitive element, which determines the magnitude of the angular velocity of its rotation. 3 il. (L to SP to (pU2.1

Description

The invention relates to devices for measuring the flow of wet steam, in particular, during the control and research of the processes of steam and heat treatment of oil-bearing formations.

The purpose of the invention is to improve the accuracy of measuring the flow rate of wet steam,

In FIG. 1 shows the proposed flow meter, General view; in FIG. 2 - disk; in FIG. 3 - test results of the layout of the flow meter on a water-air mixture.

The wet steam flow meter (Fig. 1) consists of a cylindrical body 1 with an expanded section (chamber) 2. A disk 3 with cutouts, with a shaft 4 and supports 5 is placed in the body. A disk made of non-magnetic material is equipped with magnetic marks 6, and in camera 2, at the level of magnetic marks 6, is installed in a glass 7 with a thread winding 8 of the signal pickup unit.

The flow meter operates as follows.

The forces of the shear stress of friction acting on the upper part of the disk create a torque acting on the upper part of the annular disk 3 and cause it to rotate with an angular velocity proportional to the flow rate of the wet steam. The lower part of the disk 3, located in the chamber 2, is inhibited by the moment of resistance formed by the fluid rotating in the chamber, and the value of the moment of resistance is also proportional to the flow rate of the mixture. Therefore, a change in moisture content (at a constant flow rate of the mixture) will not lead to a change in the angular velocity of rotation of the disk.

The magnitude of the angular velocity of rotation of the sensing element is determined by the driving moment of resistance. The magnitude of these moments depends on the ratio of the area of the disk and the area of the cutout in it. If the size of the cutouts exceeds the optimum, then the driving moment is significantly reduced and, therefore, the sensitivity of the flowmeter decreases. On the other hand, a decrease in the size of the cutouts ⁵ leads to an increase in the Coriolis moment and an increase in the measurement error. Therefore, it is necessary to choose the optimal ratio between the left and cut out areas of the disk. The indicated ratio is selected on the basis of the expression for the moments acting on the disk. The optimal ratio of the abandoned area to the area of the cuts is 0.6-0.75.

Tests (Fig. 3) of a disk flow meter with a slotted disk at various flow rates of the air-water mixture (Q) and different flow mass moisture content (β) show that when β changes from 0 to 30%, with a constant flow rate of ₂₀ , the flow meter readings do not change , which confirms the performance of the design.

Claims (1)

Claim A flowmeter comprising a housing in the form of a chamber mating with a portion of the pipeline being monitored and a sensing element in the form of a disk mounted for rotation in the chamber, the plane 30 of which passes through the axial line of the pipeline, and its peripheral part is located in the section of the pipeline, characterized in that , in order to improve the accuracy of measuring the flow rate of wet steam, the disk in it is made with symmetrical cutouts of arbitrary shape, while the ratio of the area of the disk to the area of the cut part is 0.6-0.75. L 5- / i- - + in FIG. 2 Q < 0. about, H --- 1--1 - 12 78 Ά x Fig. 3