SU1578618A1 - Method of checking depletion of sodium-cationic exchanger filters - Google Patents

Abstract

The invention relates to the treatment of water for powering boilers and heat networks. The aim of the invention is to increase the efficiency of automatic control of depletion of sodium-cation-exchange filters. Thermal resistance in the form of metal wire, which is heated by electric current above the boiling point of water, is installed in the water flow after the filter. When hardness salts appear in water above the permissible value (when the filter is exhausted), scale builds up on the surface of the heated wire, which worsens the condition of cooling the wire with the surrounding stream of water. The temperature of the wire increases, the electrical resistance begins to change, which is fixed by a signaling device, indicating the need to regenerate the filter. 1 il.

Description

The invention relates to the treatment of water for powering boilers and heat networks.

The aim of the invention is to increase the efficiency of automatic control of depletion of sodium-cation-exchange filters.

The drawing shows a schematic diagram of the device by which the proposed method is implemented.

The device consists of an electrical conductor 1 in the form of a thin metal wire with a high thermal coefficient of electrical resistance, such as nickel. The element is placed in pipe 2, through which water flows after the sodium-cation filter (not shown). The wire is fixed in the pipe with the help of holders 3 and seals 4. The circuit includes a source 5 of a stabilized DC power supply and

ammeter b, with which the signaling device 7 is associated

The method of controlling the depletion of sodium cation-exchange filters is carried out as follows.

Conductor 1, the electrical resistance of which depends on temperature, is installed in the water flow after the sodium-cation-exchange filter. The conductor is connected to the source of stabilized power supply 5 and the electric current passing through it is heated and maintains its temperature higher than the boiling point of water to ensure stable boiling of water. Since scale formation on the heating surfaces is maximal, boiling of water on the wire provides the necessary sensitivity of the device. While the sodium-cation-exchange filter copes with the purification of water from hardness salts, scale on the surface

the wires do not land and the temperature of the wires remains constant. When the water quality deteriorates at the end of the filter cycle (i.e., when the filter is exhausted), the surface of the wire begins to deposit, which worsens the condition of the wire cooling by the surrounding flow of water, and the temperature of the wire rises. As a result, the electrical resistance of the wire begins to change, which is fixed by the change in the magnitude of the electric current passing through the conductor.

When the electric current reaches a certain value set at the beginning of the filter cycle and a corresponding water hardness above the permissible value, the indicator 7 is triggered, indicating the depletion of the sodium-cation-exchange filter and the need for its regeneration. Thus, the resistance of the wire is an electrical parameter, at the beginning of which the filter exhaustion is determined. After filter regeneration, the measuring element is replaced

on a new one, and the alarm device is reset.

Using the method of controlling the depletion of sodium-cation-exchange filters simplifies the operation of chemical water treatment equipment, increases the efficiency and reliability of controlling the depletion of sodium-cation-exchange filters.

Claims (1)

Invention Formula The method of controlling the depletion of sodium cation-ion filters, which consists in installing an electrical conductor in the water flow after the filter and heating it, and depleting the filter is determined by the beginning of the change in the electrical parameter, characterized in that the electrical conductor in the form of a wire with a thermal coefficient of resistance, the temperature of the wire is maintained above the boiling point of water, and the electrical resistance is loki LO about l BUT