SU138089A1 - Method for quantitative determination of dispersed gases in liquid - Google Patents

Description

Devices of photometers with automatic compensation are known, as well as devices containing cuvettes through which fluid is pumped.

The described method using a photometer with automatic compensation with two cuvettes is based on a nephelodilatometric method and allows measuring the content of dispersed gases in liquids directly in the process streams.

The essence of the method is that the test liquid is passed through two cuvettes at two different pressures in them, and the amount of dispersed gas is determined by changing the light notes scattered by gas bubbles in the cuvettes.

This method allows you to quickly determine the amount of gas dispersed in a bubble in the flowing fluid.

The drawing shows a diagram of an apparatus for carrying out the described method.

The main element of the instrument is a flow cell.

The cuvette consists of two shoulders connected by a capillary. Each arm is a glass parallelepiped having an inlet and an outlet. A capillary tube connecting both shoulders creates local resistance to the flowing fluid. The left shoulder is connected to the receiving tank 2, where the liquid under test is supplied under constant pressure (for example, atmospheric).

The right shoulder is connected to the water-jet pump 3, which creates a certain vacuum. The pressure regulator 4 maintains a constant vacuum.

The optical system of the device consists of an illuminator 5 and two pairs of condensers (5 and 7. Condensers 6 direct the light flux / o, through the arms

No. 138089-2 cuvettes, and condensers 7 collect the dissipated flux, ,, at the photoresistance of 8 to 9.

An optical wedge JO is placed in the path of the flow scattering 7,.., Which serves as the balancing element of the electric bridge, composed of photoresistances 5 and 9 and resistances and R.

The power supply is turned on in one diagonal of the bridge, and the other diagonal is connected to an electronic amplifier. The output of the electronic amplifier is fed to a reversing motor 2, the axis of which is mechanically connected with the optical wedge 10 and the pointer of the scale 13.

The device works as follows. With the help of a water jet pump 3, the test liquid is sucked through the cuvette. In the left arm of the cuvette, a certain constant pressure Pb a is set to the right — some vacuum P. At some value of the dispersed gas in the liquid, the volume of bubbles in the right cuvette under the effect of vacuum will increase compared to the volume of gas bubbles in the left cuvette, according to Boyle - law Mariotta:

V,

In such a position, the flux of scattering fp,, due to the bubbles of the left cuvette, will be less than the flux of scattering 1p-, in the right cuvette. This will lead to an imbalance of the electric bridge and at the input of the amplifier there is some voltage proportional to the ratio of the light fluxes.

. which is amplified by an amplifier and supplied to a reversing motor

J2 Since the axis of the latter is connected to the optical wedge W and the scale indicator 13, the imbalance voltage will disappear when the two scattering fluxes / pj and Ip are equalized with the help of the optical wedge. A certain position of the gauges 13 corresponds to this gas content. will lead to a change in the ratio of the fluxes dissipation / p, and /, 2, and the circuit will again be balanced at the new position of the optical wedge and, accordingly, the pointer and the scale. The device can be calibrated on standard solutions.

Subject invention

. The method of quantitative determination of dispersed gases in a liquid, based on differential photometric measurement of a liquid in two cuvettes, characterized in that, in order to accelerate the determination of gas dispersed in the form of gas bubbles in a flowing fluid, the test liquid is passed through the cuvettes at two different pressures in them and by changing the light fluxes, races; The amount of gas dispersed is measured by gas bubbles in cuvettes.

Bodti.

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