SU95301A1 - Automatic device for the preparation and supply of regeneration solution to ion exchange filters - Google Patents

Description

Regeneration of the overwhelming majority of industrial ion-exchange filters is carried out with the help of flowing salt solvents, which in the initial, relatively short period of their work give a high concentration of regeneration solution, and then this concentration, as the reagent loaded in the salt solvent is washed out, begins to decrease, the income gradually reaches zero. . Such a mode of regeneration of ion-exchange filters is unfavorable both in terms of the depth of restoration of the working capacity of the absorption of the ion exchanger, as well as in relation to the possibility of reducing the specificity. Pogo consumption of regenerative substances. To eliminate these drawbacks, stepwise regeneration is used, in which the first portion of the solution fed to the filter produces a slightly lower concentration than the second — Such two-stage regeneration, although it does allow to obtain some reduction in the specific consumption of the reagent, but it complicates and lengthens the regeneration process. .

The proposed device completely eliminates the indicated disadvantages of stepwise regeneration and provides an automatic gradual increase in the concentration of the regeneration solution as it is fed to the filter. For this, the solution tank is provided with a metering diaphragm, the cross section of which is varied by a regulating needle, operated by a float, located in the same tank. Over time, the needle gradually increases the orifice area of the diaphragm and thereby increases the conceptualization of the solution dispensed by the water-jet pump.

The drawing shows a diagram of the device.

The device is designed to prepare a variable concentration regeneration solution and feed it to ion exchange filters. In this case, as the solution is supplied to the filters, an automatic gradual increase in concentration occurs. The device consists

No. 95301-2 -

from a water-jet pump / diaphragm valve 2 and a measuring tank 3 with a concentrated regeneration solution. The tank is provided with a metering diaphragm 4 installed in the bottom of the tank and an adjusting needle 5 controlled by a float 6 located in the same tank. In order to prevent the back flow of the water and the operating filter in case of the passage of the membrane valve 2, a check valve 7 is installed in the discharge pipe.

In order to operate the device, the valve 8 is opened, water from the pressure pipeline enters the water jet pump / n simultaneously via pipeline 9 into the upper cavity of the membrane valve 2. Part of the water is discharged into the drain through conduit 10 through the diaphragm // with a small section providing the necessary pressure in the pipeline, under the action of which the valve 2 opens. Under the action of a water-jet pump / concentrated solution from the measuring tank 3, it is sucked through the pipeline 12, diluted in a water mixing chamber the jet pump to the desired concentration and the discharge conduit 13 is supplied to the regenerated ion exchanger (not shown). When the measuring tank 3 is filled, the dosing diaphragm 4 is maximally blocked by the regulating needle 5, as a result of which the concentration of the regeneration solution supplied will be minimal. Subsequently, as the solution is consumed and its level is lowered in the tank 3, the regulating needle 5 under the influence of the float 6 connected with it through the block 14 will also gradually rise and increase, thereby, the orifice of the dosing diaphragm 4.

A gradual increase in the orifice of the metering diaphragm 4 will change the concentration of the supplied regeneration solution towards its increase.

After the end of the supply of the required amount of solution from the measuring tank 3, the valve 8 is closed. In this case, the operation of the water jet is stopped, and the water supply through the pipeline 9 to the membrane valve 2 also stops. The excess pressure in the pipeline 9 is gradually equalized with the atmospheric pressure as a result of a part of the liquid flowing out through the diaphragm, after which the membrane valve 7 is closed.

Subject invention

An automatic device for preparing and supplying ion exchange filters with a regeneration solution, consisting of a water-jet pump, a measuring tank and a piping system, characterized in that, in order to gradually increase the concentration of the regeneration solution as it is fed into the filter, the measuring tank is equipped with a dosing diaphragm, section which is controlled by a needle controlled by a float located in the same tank.