SU116066A1 - Method for photoelectric determination of turbidity of a liquid and device for its implementation - Google Patents

Description

When determining the turbidity of solutions or suspensions by known methods on photovoltaic devices, the result of the determination is distorted due to a change in the transparency of the walls of the cuvette or other vessels or viewing tubes in which the test liquid is placed or flows.

The described method of photoelectric determination of the turbidity of liquids and a device for its implementation allow determination of the turbidity of the liquid (CO is much more accurate, and the accuracy of the determination does not decrease with prolonged operation of the device.

This is achieved by the fact that viewing cuvettes, vessels or tubes are excluded from the construction of instruments for determining the turbidity of a liquid, an open, uniformly flowing stream of controlled liquid is given to translucence, which is given a ribbon-like shape of constant thickness and width.

In order to create a jet of a specified shape and cross section, an auto-siphon is used, one end of which is provided with a nozzle with a plane-parallel outlet slot, which is a liquid sensor, and the other end is bent and located in a supply tank with a constant level of liquid.

The described method and device allow accurate determination of the turbidity of a suspension containing from 2.5 mg to 30 g of solid matter per liter of liquid.

The measurement error does not exceed + 2.5%. moreover, the accuracy of the determination does not decrease for many months.

The light source can be any known device with a constant luminous intensity, such as an electric lamp that supplies the electric current of a strictly constant (stabilized) voltage N 116066-2 -

A plane-parallel beam of light is directed to the center of a jet of fluid (at the place where its turbidity is measured) using a lens. After passing through the stream, a beam of light falls on another lens and focuses the latter on photoresistance, for example, of SFK-1 type. similar purposes of the device, for example types of MRZhPR-54 or SG.

The cross section of the fluid jet at the location where the transparency (turbidity) of the fluid is measured should be rectangular and of constant dimensions (for example, 3 x 20 mm). For this, the measurement is made at a small distance from the nozzle of the auto-siphon, for example, 2-3 mm below the nozzle. So that the intensity (the cKOpQCtbj outflow of the jet from the nozzle was constant, in the tank from which the autosiphon is fed with liquid, the level of the latter is kept constant.

The autosiphon is a conventional curved tube, at the lower end of which a nozzle is attached, which is a sensor of the controlled fluid. The nozzle is a cylinder whose axis is strictly vertical. In the lower part, the cylinder passes into a truncated cone, in the lower (smaller) base of which a strictly rectangular slot is cut to release a liquid. The size and location of the slit provide a strictly vertical ribbon jet with a constant cross section.

Present Invention

Claims (2)

1. A method of photoelectric determination of turbidity of a liquid, characterized in that, in order to eliminate the determination error caused by the change in light transmission of the walls of the viewing cell, due to the deposition of various salts and precipitates on them, an open, uniformly flowing stream of controlled liquid is applied, thickness and width. 2. An apparatus for carrying out the method according to claim 1, characterized in that an auto-siphon is used to give the controlled liquid a ribbon-like shape and to ensure its constant width and thickness, and one end of which is provided with a nozzle with a plane-parallel discharge slot, the other end is isogs and is located in a tank with a constant level of fluid.