SU438934A1 - The method for determining the degree of turbulence flow - Google Patents

Description

one

This invention relates to a measurement technique.

The known methods for determining the degree of flow turbulence by measuring the static and dynamic pressures and the magnitude of the dilution using a tared pneumometric packing are used in isobaric flows with low turbulence levels under conditions of a crisis flow around the packing.

The purpose of the invention is to simplify the method and expand the range of measurements.

This is achieved by installing a pneumometric nozzle in the direction of the velocity vector and measuring after the nozzle of a vacuum value depending on the degree of turbulence under conditions of a crisis-free flow.

The drawings show a diagram of a device for measuring by the proposed method.

The device is a conventional Pitot tube or a system of three (five) needles with a diameter of 0 0, .0 mm. The axis and section of the central needle are located on the axis of rotation of the nozzle A-A (Fig. 1). The central needle serves to measure the total venom pressure. Four (two) extreme needles are arranged in pairs in two mutually perpendicular planes (in the plane normal to the plane

symmetry needles (Fig. 1) and cut at an angle of 45 °. The number of needles is chosen depending on the measure of flow. So for one-, two-, three-dimensional flows, the nozzles consist of one, three, and five needles, respectively.

By arranging the holes of the needles of the three-tube nozzle strictly against the velocity vector V of the flow, which is achieved by equalizing the total pressure in the side needles of the RB (Fig. 1 and 2), we have:

. +; (1)

p ..- rk (2)

15

where p is the density of gas (liquid),

/ Ci - calibration coefficient of proportionality of the hydraulic head between

central and lateral needles to the dynamic head flow in the position of the nozzle corresponding to FIG. 2

When turning the nozzle by 180 ° around the axis A-A (Fig. 3), i.e. when the nozzle is in the speed vector, the reading of the central needle is:

(3)

DIGG - ST B)

where RP is the magnitude of the vacuum (vacuum) of 30 track after the nozzle.

Excluding from (1) and (3) the value of static pressure (Pst), we get:

, -Rc, + Yav.

(four)

The magnitude of the vacuum (Pb) in the wake of the body depends on the degree of turbulence (e) and is presented in the form:

Rv (c) - / S. (Yu,

(5) 10

where / С2 (е) is the coefficient of adjustment, taking into account the influence of the degree of turbulence on the amount of vacuum behind the body. The dependence of this coefficient on the degree of turbulence (e) for the nozzle in question is established by reference device.

To determine the degree of turbulence by means of a otted nozzle, equation (4) with regard to (5) results in the form:

RU

AP (s): zzIl-f / C. (e)

(6)

fui.

AR (in)

TO,(

(7)

-one.

Calculate the value of dynamic head of flow pVVS by (2) and the value of АА by (4) as the difference between the readings of the central needle in two positions of the nozzle, and substituting them in (7) find the coefficient / Сз for the flow point considered. Next, the local value of the degree of turbulence e is determined from the calibration curve (e).

Subject invention

A method for determining the degree of turbulence of a flow by measuring the magnitude of the dilution, dynamic and static pressures at the point under investigation using a tared pneumometric nozzle, characterized in that, in order to simplify the method and extend the measuring range, the negative pressure is determined under conditions of crisis-free flow around the nozzle turned in the direction controlled flow.