SU1395990A1 - Installation for determining concentration of gas dissolved in liquid - Google Patents

Abstract

The invention relates to a technique for measuring the concentration of a gas dissolved in a liquid, and makes it possible to ensure the safety of measuring the concentration of a gas dissolved in aggressive low-boiling liquid. The installation contains a measuring cell located in the pipeline with the analyzed fluid and a differential pressure gauge connected to it, a condenser whose vapor-gas volume is connected to the pipeline for draining the analyzed liquid at the level above the measuring cell, and the differential pressure gauge has a flexible membrane. 1 il.

Description

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The invention relates to technical physics, and more specifically to a technique for measuring the concentration of light components of liquids of complex composition, for example, being heat carriers in power plants.

The purpose of the invention is to ensure the safety of concentration measurements dissolved in aggressive or non-corrosive liquids.

The drawing shows the scheme predla

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 installation.

The installation contains a measuring cell IV consisting of a chamber 2 for the reference liquid and a chamber 3 for the analyzed liquid. Measuring: the cell is located in the pipe 4, through which the washing cell 1 flows through the analyzed liquid 5 "under a pressure greater than the saturation pressure of the analyzed liquid with max: maximum gas content. Chambers 2 and 3 are equipped with pipes 6 and 7 and drain 8 and 9 with the corresponding valves 10 and 11 and 12 and 13. Chambers 2 and 3 of the measuring cell are equipped with a differential pressure gauge 14, which is located at a lower level. pipe 4 with the measuring cell 1. The chamber 3 of the liquid flow analyzed by the drain pipe 9 is connected to the vapor-gas volume of the condenser 15 containing the analyzed liquid whose temperature is lower than

line 4 and cell 1. Place C0 (pipelines 9 discharge from the drain to the condenser 15 on the level above the cell— 1. Chamber 2 for the reference fluid; connected to the chamber + differential pressure gauge 14. Chamber 3 for the analyzed fluid is connected to the chamber - differential pressure gauge 14.

A differential pressure gauge with a movable sensitive element that can withstand single loads, for example, type 1ШДЭ-100 (TU 25-02.801641-78), is used in the installation.

The installation works as follows.

Before measuring the concentration in the analyzed liquid, it does not turn out (t take the analyzed liquid into cell 1, open the valve 11 for that. Valve 13 opens and then closes after some time.

Analyze the liquid under pressure that exceeds the saturation pressure ..

the reference fluid fills the working line: the pressure gauge chamber 14 and the chamber 3, as well as pipelines 7 and 9. The pressure gauge membrane 14 is in the extreme position I. The standard fluid is filled at the saturation pressure of the reference line: through pipelines 6 and 8 chambers 2 and chambers + of a differential pressure gauge 14. gates 10 and 12 are opened, as well as valve 11, through which pipeline 5 delivers fluid 5 from pipeline 4 4 under a sufficiently large pressure.

J5 Valve 13 is closed. The gauge 14 diaphragm is in position I. The valve 12 is shut off in succession, then the valves 10 and 11. Once the reference fluid is flooded, the reference liquid remains in

20 set for the entire series of analyzes. Close the valve 11, open the valve 13. The pressure on the working line decreases to a pressure in the condenser 15, which is obviously less than

25, the pressure of the analyzed fluid in chamber 3, since the temperature in the condenser 15 is less than in. chamber 3. In chamber 3, boiling up and formation of a gas interlayer occurs. The valve 13 is closed, the pressure rises to the value of the saturation pressure, and the membrane of the pressure gauge 14 is mixed from position I to the left, displaced part of the liquid, then returns to the right, freeing up the volume of gas that is concentrated in chamber 3, where the temperature is higher. At the same time, a certain volume, which is filled with gas, is released in the chamber + manometer 14, and the corresponding saturation pressure is established. The membrane of the differential pressure gauge performs the function of a steam volume metering unit in chambers 2 and 3. The gauge reading after the opening of the valve 13 decreases sharply, then after closing the valve 13, it slightly increases, which indicates the formation of steam in the chambers 2 and 3. finished, and in chambers 2 and 3 certain volumes of vapor and liquid are provided.

After the installation is prepared for operation, a measurement is made of the difference between the 5 pressures LR in chambers 2 and 3 according to the differential pressure gauge 14. According to the calculated data, the concentration of gas dissolved in the analyzed liquid is determined

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The use of the proposed installation (compared to the prototype) provides greater safety of measurements, since the use of a differential manometer with a movable sensing element and a capacitor eliminates the need to drain the liquid at each measurement, which makes the process of monitoring the concentration of the dissolved gas safer and more convenient.

Claims (1)

Invention Formula An apparatus for determining the concentration of a gas dissolved in a liquid, containing a measuring cell divided by a partition into two chambers equipped with pipes for supplying and discharging the sample and the test fluid, and a differential pressure gauge connected to the chambers, which is different in order to ensure the safety of gas concentration measurements, dissolved in aggressive low-boiling liquid, it additionally contains a condenser, the vapor-gas volume of which is connected to the pipeline for draining the analyzed liquid at the level above the measuring cell, When this differential pressure switch has a flexible membrane.