SU810612A1 - Water dechlorination method - Google Patents

Description

(54) METHOD FOR WATER DEHLORATION

The invention relates to methods for dehalogenizing water and can be used for dechlorination and debromination of wastewater in the chemical medical industry, in the non-ferrous metallurgy and other fields.

The known method of dechlorination of water by treating it with activated carbon. The disadvantage of this method is the destruction of coal and its unsuitability for further use.

The closest to the invention to the technical essence and the achieved result is the method of water dechlorination, which consists in treating water from the adsorbent containing sawdust and sulphate lignin 2.

The disadvantage of this method is its duration, lack of effective effusion for debromination of water and its single action.

The purpose of the invention is to increase the efficiency of the process by reducing the processing time, the possibility of debromining water, and repeated use of the adsorbent.

The goal is achieved by the described method of water dechlorination, which consists in the fact that water treatment is carried out with sphagnum moss with its subsequent

regeneration of sulphite-alkaline solution with a 1NCentre, PO-130 g / l sodium acite sulphite and caustic soda 75-85 g / l.

Distinctive features of the method are that water treatment is carried out with sphagnum moss followed by its regeneration with a sulphite-alkaline solution.

Another difference is that the sulfite-alkaline solution with the PO-130 g / l sodium sulfite and caustic soda concentration 75-85 g / l regenerate.

Example 1. In a conical flask with a capacity of 0.25 l load 5 g of sphagnum moss, dried when staying in air to a moisture content of 5%, and pour 0.2 l of water containing 30 mg / l of active chlorine at 20 ° C. The contents of the flask shaken and after 5 min complete dechlorination of the water is achieved.

Example 2. As described in Example 1, the wastewater from the bromine plant containing 56 mg / l of active bromine and 1 mg / l of active chlorine in brine is dehalogenated. Full dehalogenation of wastewater is achieved after 5 minutes.

Example 3. Sphagnum moss in an amount of 5 g, saturated with bromine or chlorine, is subjected to regeneration with a 0.2 l sulphite-alkaline solution. The processing time of moss sulphite-alkaline solution for 3 minutes. Then the sulphite-alkaline solution is drained and the sphagnum moss is washed for 3-5 minutes with 0.2 l of water, which then is also drained. All processes are carried out at a temperature.

The sulphite-alkaline solution used for the regeneration of sphagnum moss contains sodium sulfate 120 g / l and caustic acid 80 g / l. Wash water is used to prepare a new batch of sulphite-alkaline solution.

The degree of desorption of halogens, 8%.

Example 4. The process of dehalogenation of water is carried out as described in example 2, with sphagnum moss, regenerated as described in example 3. The complete dehalogenation of the waste water of the composition specified in example 2 is completed after 6 minutes.

TAKIM method, the proposed method allows MHisfoKpaiiHO to use an adsorbent, - reduce the waste water treatment time 3-5 times, process water with a high content; halogens, to simplify the process technology by eliminating special installations for the preparation of sorbitol, to eliminate the possibility of contaminated treated water with an adsorbent.

Claims (2)

1. A method for dechlorinating water by treating it with an adsorbent, characterized in that, in order to increase the efficiency of the process by reducing the treatment time, the possibility of debromising water and repeated use of the adsorbent, water is treated with sphagnum moss followed by regeneration with sulphite-alkaline solution. 2. A method according to claim 1, characterized in that the regeneration is carried out with a sulfite-alkaline solution with a concentration of sulfite sodium of 110-130 g / l and caustic soda 75-85 g / l. Sources of information taken by the HE during examination: 1. V. A. Klchko, I. E. Apeltspn. Purification of natural waters. M., stroiizdat, 1971, p. 318. the USSR 2. Copyright certificate Ho 551259, cl. C 02 C 5/02, 04.29.77.