SU120364A1 - Device for semi-automatic sorting of two liquids sequentially pumped through a pipeline - Google Patents

Description

The known devices for measuring the density of liquids, based on using the method of labeled atoms in relation to the tasks of sorting liquids sequentially pumped through the pipeline, have a number of significant drawbacks associated either with the need to pre-tune the device according to samples of the pumped liquids, or have difficulty in preparing radioactive additives and their timely introduction into the pipeline.

The described device for semi-automatic sorting of two liquids successively pumped through a pipeline, based on the use of the dependence of the intensity of scattered or absorbed γ-radiation on the density of the flowing fluid, eliminates the drawbacks of the existing methods, does not require determining the absolute densities of the pumped liquids, and does various kinds of concentration calculations. These qualities are provided by the use of two; - dense meters located on the pipeline at a distance somewhat longer than the length of the liquid mixing zone, a differential frequency meter powered by two pulse sensors, a scattered radiation recorder equipped with a device for changing the measurement limit, by means of which the maximum deviation of the recorder indicator to the end of the scale is set, and contact Executive mechanism, which includes servo valve of the pipeline at a given concentration of the mixture.

The device diagram shown in the drawing contains two identical pulse channels, including two radiation sources 2 and 4, installed on the pipeline /, counters (scintillation or ionization) 5 and 5, reacting to scattering 7-radiation liquid, 120364- L -

two, amplifier 6 and 7, two amplifier-normalizer 8 and:. Both channels are connected to a differential frequency meter 10, which compares the frequencies of the pulses of both ka {alov, identical in their characteristics. When a pulse arrives at the grid of the L1A lamp () of the differential frequency-meter, the capacitor C | d (Ssc), pre-charged through the resistance RI (R) and the diode D1d (D1B), is discharged through the lamp L |, d (), the diode D 2A (L 2B) and resistance 2L (b) - The difference in average voltage across the resistances and 2B is measured by a recording electronic potentiometer 14, and with the adjustable shunt resistance 12 at the input of the device 14, the sensitivity of the device can be changed.

YctpoftcTBo works as follows o6pa30i. With the approach to point A of the pipeline at the beginning of the mixture, the density of the fluid changes accordingly, which changes the frequency of the channel pulses / d. This change occurs until a mixture of liquids passes through section .4. When the mixture of liquids occupies the position of the Melsdu section and S, and in section B, the first batch of pure liquid will pass, and the second batch of A is a pure liquid, instrument 14 stops changing. At this moment, the operator turns the variable shunt 12 knob to set the instrument reading 14 to the end of the scale (100% division) and turns on the toggle switch 15, which supplies power through the instrument controller 14 to the automatic valve circuit 13 of the valve servo drive. The switch 11 serves to provide the correct polarity at the inlet of the device 14 depending on the density of the liquid of the second batch.

In addition to t-emitters, sound source sources that are proportional to the dielectric constant of the liquid can be used as sources of pulses in the device.

Subject invention

A device for semi-automatic sorting of two liquids successively piped through a pipeline by scattering radioactive radiation, from which, in order to eliminate the need to obtain baseline data on the chargeability of the liquids to be pumped and to calculate the concentrations of these mixtures liquids in the pipeline, as well as receiving a signal for switching valves at given concentrations of the mixture of liquids, it consists of two gamma densitometers spaced apart along the pipeline for a distance greater than the maximum lines of the pipeline section occupied by the mixture and the differential frequency meter to which the recorder’s sensors are fitted, equipped with a device for changing the measurement limit, by means of which the maximum deviation of the recorder pointer is set to one hundred percent scale mark and a contact actuator including a servo drive of the pipeline valves at a given mixture concentration .