SU482176A1 - The method of regeneration of ion exchange filters - Google Patents

Description

one

The invention relates to a method for regenerating IONITE filters and can be used in water treatment, for example, in the treatment and desalination of sea and salt water.

There is a method of regeneration of ion exchange filters, for example Na-cation exchangers, evaporator water running through softened seawater blowing water. The method consists in mixing the preliminated seawater in a thermal humidifier with steam and heating to a temperature of 160-170 ° C.

The disadvantages of this method are the high consumption of high-grade steam (0.25-0.3 tons of steam per 1 ton of softened water), the formation of scale in the thermal humidifier and preheater of raw seawater, and the large intensity of the installation.

In order to eliminate the increase in the degree of regeneration and reduce the cost of the process, the spent regeneration solution containing 20-30 mg eq / l of calcium ions is passed through the ion-exchange filters. At the same time use 8-10% solution, circulating in a closed loop; Calcium sulfate crystallizer - cation-exchange filters.

The drawing shows the implementation of the proposed method, where 1 - brightener; 2 - counterflow cation filter; 3 — calcium sulphate crystallizer; 4 - evaporator purge water tank; 5 - evaporator.

In the method according to the invention, milk of lime is dosed into sea water or salt water, and magnesium hydroxide is precipitated in clarifier 1. Then, water containing only calcium salts from hardness salts is supplied to

a two-chamber countercurrent cation-exchange filter 2 and passes from bottom to top through chamber A and from top to bottom through chamber B, where the water is deeply softened.

Regeneration of Na-cation filter

It is first produced with a waste solution circulating between the calcium sulphate crystallizer 3 and the Na-cation-exchange filter, and then with a fresh solution from the evaporator purge water tank 4 working with softened water, passing upward through the chamber B and downwards through the chamber A of the cation resin filter. The softened water is directed to evaporation to an evaporator 5.

To maintain the quantitative and salt balance, the first portions of the spent solution are discharged into the sewer system, and the remainder is directed to a calcium sulfate mold, where most of the calcium ions are removed from the solution. it

makes it possible to provide a high depth of regeneration of the Na-cation resin filter with the spent solution. By reusing the spent solution of the previous regeneration, it is also possible to ensure a sufficient depth of regeneration of the Na-cation-exchange filters, directly softening the sea, salt and even fresh water. The specific consumption of wash water during washing from the products of regeneration can be dramatically reduced if it is fed into the ion-exchange filter after the regeneration solution is drained from it.

Example. Initially, an 8–10% spent regeneration solution with a calcium ion content of 20–30 mg eq / l is passed through a Na-cation-exchange filter in an amount exceeding the evaporator purge water consumption by a factor of 2–3 with a filtration rate of 10–12 m. per hour, and then an 8–10% solution of the purge water of the evaporator with a calcium ion content of 0.5–1.5 mg-eq / l at a speed of 4–5 m / hour.

When regenerating a Na-cation filter according to the proposed method, the exchange capacity

Sulfur coal is 350-400 g-eq / m, and cation exchanger KU-2 is 1100-1200 g-eq / m. The cost of deeply diluted water is 4-6 cop / m against 40-50 cop / m with the well-known thermochemical deep mind method.

Subject invention

Claims (2)

1. A method of regenerating ion-exchange filters, for example cation exchangers, blowing water of evaporators operating on tempered water, characterized in that, in order to increase the degree of regeneration and reduce the cost of the process, spent regeneration solution containing 20-30 mg-eq is passed through the ion-exchange filters / l calcium ions. 2. A method according to claim 1, characterized in that an 8-10% solution is used circulating in a closed circuit: a calcium sulfate mold - cation-exchange filters. Have Branches V I CaSO