RU1827585C - Method for checking fluid viscosity - Google Patents

Abstract

The invention relates to non-contact methods for controlling the viscosity of moving fluids. SUMMARY OF THE INVENTION: the method includes exposing a liquid jet from a nozzle to a liquid surface and measuring the frequency of the oscillations arising as a function of a controlled quantity, the gas stream acting at the same angles with and against the stream. Viscosity is determined from the measured frequencies of the resulting vibrations. 1 ill.

Description

The invention relates to measuring equipment, in particular to aerohydrodynamic non-contact methods for controlling the viscosity of liquids, and can be used in various industries, for example, chemical, petrochemical, etc.

The aim of the invention is to increase the accuracy of control of the viscosity of moving fluid.

A diagram of a device that implements the proposed method for controlling the viscosity of a liquid is shown in the drawing.

Compressed air from the outputs 1 and 2 of the pneumatic-electric automatic control unit 3 is supplied to the inlet of nozzles 4 and 5. The first 4 and second 5 nozzles are placed above the surface of the controlled fluid 6 at the same height at an angle a and (- a), respectively. From the action of the gas jet exiting the nozzle 4 or 5, a recess 7 is formed on the surface of the liquid 6. A sensing element 8 is installed above the liquid, the output of which is connected to the input 6 of control unit 3. The input of recorder 10 is connected to the output of control unit 3.

Let the fluid under control 6 move in the direction indicated by the arrow in the drawing.

From the control unit 3, gas is supplied to the nozzles 4 and 5 periodically for predetermined time intervals.

The stream of gas exiting the nozzle 4 acts on the surface of the liquid along its flow. When a gas stream interacts with a liquid, a recess 7 is formed on the latter, the surface of which is subject to periodic fluctuations perceived by the sensing element 8. When a gas stream flows through a liquid, the frequency 10 of the recess surface oscillations increases by the value of L f, i.e.

11 f0 + Af,

where fo is the frequency of oscillation of the surface of a stationary fluid;

00

Yu

xj

(I 00 SP

fi is the frequency of oscillation of the surface of the recess under the action of a gas stream along the fluid flow.

The stream of gas exiting nozzle 5 acts in opposition to the movement of the liquid. With this action of the jet, the frequency f0 decreases on Af, i.e.

f2 fo- Af,

where fa is the frequency of oscillation of the surface of the recess under the action of a gas stream against the flow of liquid.

In the control unit 3, the frequencies of the signals from the output of the sensing element 8 are summed.

The measured value of the total frequency

0

5

0

f 2 f about

will determine the viscosity of the fluid.

Claims (1)

Thus, the proposed viscosity control method allows for non-contact aerohydrodynamic control of moving fluid. SUMMARY OF THE INVENTION A method for controlling the viscosity of a liquid, including the action of a jet of gas flowing out of a nozzle on the surface of a liquid and measuring the frequency of oscillations as a function of a controlled quantity, characterized in that, in order to increase the accuracy of measurements when controlling the viscosity of moving media, by a jet of gas act at the same angles upstream and downstream, measure the frequencies of occurring oscillations, from which the controlled value is determined.