SU1368757A1 - Device for determining concentration of coagulant in water - Google Patents

Abstract

This invention relates to the physicochemical analysis of electrolyte solutions and can be used to determine the concentration of coagulants in drinking water. The device makes it possible to increase the accuracy of measuring the concentration of coagulant in drinking and industrial water at water treatment plants. The device contains a working electrode, made in the form of a housing and connected to a measuring circuit, two measuring cells consisting of guard and working electrodes, which are made in the form of hollow cylinders connected by a dielectric tube and connected through a measuring circuit to a recording device. The measuring cells are rigidly connected to each other by themselves and mounted on a guide, and moving them relative to the housing is carried out by an actuator connected to the output of the controller, the first input of which is connected to the k output of the measuring circuit, and the second is connected to the setpoint device. 1 il. (L

Description

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The invention relates to the physicochemical analysis of electrolyte solutions and can be used to determine the concentration of coagulants in water intended for drinking or technical purposes at water treatment plants.

The purpose of the invention is the measurement accuracy.

The drawing shows a block diagram of the device.

The device consists of measuring cells 1 and 2, made in the form of hollow cylinders, each of which includes a guard 3 and a worker 4 electrodes interconnected by a dielectric tube 5. The guard and working electrodes are connected to the measuring circuit 6, which is connected to the housing 7, which serves working electrode. The output of the measuring circuit 6 is connected to the recording device 8 and to the first input of the regulator 9. Measuring cells 1 and 2 are rigidly connected to each other on the guide 10. The guide 10 is connected with the actuator 1, with which the measuring cells 1 and .2 are moved relative to the bottom of the housing 7. The actuator input is connected to the output of the regulator 9, to the first input of which the output signal of the measuring circuit 6 is applied, and the second input is the output of the setpoint 12 constant sensor. Measuring cells 1 and 2 are separated from one another by dielectric partitions, and in the bottom of the housing 7 there is an outlet pipe for solution drainage (not shown).

The device works as follows.

Coagulated water enters the measuring cell 2, and non-coagulated water enters the measuring cell 1 IuProd through the cells, freely falls to the bottom of the housing 7 in the form of a jet (laminar flow). Workers, electrodes 4 and housing 7 are energized. In a freely falling stream of water, a current arises due to the electrical conductivity of coagulated and non-coagulated water.

The measuring circuit 6 algebraically summarizes the leakage current through the water resistance of the supply system discharged by the guard electrode 3 of the measuring cell 1 with the current flowing through the jet between the working electrode 4 and the housing 7, as well as the leakage current discharged by the guard electrode 3 of the measuring cell 2 , with a current between the working electrode 4 of the measuring cell 2 and the housing 7. After comparing the obtained values of the currents from each measuring cell, the measuring circuit supplies a signal to the recording device 8 and to the input of the regulator 9, proportional to the concentration of coagulant in water.

From setpoint 12, a constant sensor signal is sent to the controller. The controller processes the mismatch and feeds a signal to the actuator 11, which moves the measuring cells 1 and 2 along the guide 10, changing the length of the water jet 1, from which the ratio S / 1 changes, determining the sensor constant (S is the outflow section jets of water, constant value). Changing the sensor constant is necessary to improve the accuracy of measuring the concentration of coagulant in water.

Claims (1)

Turnover Formula A device for determining the concentration of coagulum in water, containing a working electrode made in the form of a housing and connected to a measuring circuit, two measuring cells consisting of guard and working electrodes made in the form of hollow cylinders connected by a dielectric tube and connected A measuring circuit for a recording device, characterized in that, in order to increase the measurement accuracy, the measurement cells are rigidly interconnected and mounted on a guide connected to An additional mechanism connected via a controller with a 3-sensor of a constant sensor and a measuring circuit. and L Illllllall and L: and Lllllll Lly and 1llll1 6 ILALL IL