SU1699938A1 - Method of purification of water from nitrites - Google Patents

Abstract

The invention relates to sorption methods of water purification in the field of medicine, hygiene and toxicology and can be used in the sanitary inspection system for monitoring chemical pollution of the environment, including natural and industrial waters for the removal of nitrites from them. The aim of the invention is to increase the degree of water purification from nitrites, which is achieved by using the spherical nitrogen-containing carbon - SKN as the sorption material. To carry out the process, water containing nitrites in an amount of 10–20 mg / l is passed through a carbon adsorbent SKN column at a ratio of 0.7–0.75 l of water per 1 g of sorbent, water containing 200–300 mg / l of nitrites, mix for 10-15 minutes at a ratio of 1 volume of SKN coal for 15-18 volumes of water. The degree of purification is 81-83% under dynamic conditions and 70-80% under static conditions 2. the item f., 2 tab. cl

Description

The invention relates to sorption methods of water purification in the field of medicine, hygiene and toxicology and can be used in the sanitary inspection system for monitoring chemical pollution of the environment, including natural and industrial waters for the removal of nitrites from them.

The aim of the invention is to increase the degree of water purification.

For the implementation of the method, spherical nitrogen-containing coal (SKN = spherical carbonite having a high sorption capacity in accordance with substances of low molecular weight) is used as a sorption material, and water containing more than normal nitrites is passed at a rate of 150-170 ml / min through a carbon adsorbent SKN column at a ratio of 0.7-0.75 l of water per 1 g of sorbent or stirred for 10-15 min at a ratio of 1 volume of SKN coal to 15-18 volumes of water.

EXAMPLE 1 A water containing -20-20 mg / l of sodium nitrite is passed through a column containing 4 g of boiled carbon adsorbent SKN at a rate of 150-170 ml / min.

The results of the experiment are presented in table. one.

Thus, by passing water at a rate of more than 170 ml / min, the efficiency of the method decreases. When the speed decreases (less than 150 ml / min), the efficiency of the method does not increase.

With an increase in the ratio of the water to be passed in to the sorbent, the efficiency of the method decreases, and with a decrease in this ratio it increases slightly.

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Example 2 To 30 ml of water containing 200-300 w / l of sodium nitrite, add 2 ml of SKN sorbent and mix for 10-15 minutes.

The results of the specimen presented in t-zbl /,

eKMiv. obrazsm, when cou HD jic.4Hi volumes of the sorbent. t i water 1-15 1B and G-i5 of the renaissance of water from the water / drle riz equal to 70% mitrite

When changing the nitrite-containing water with the congener in case of a decrease in contact time, the effective method is reduced. Dalke 1-neck Poremesiach (Le slightly increased the degree of extraction of sodium nitriga

In the case of stirring, the increase in y-pulse / h is reduced, the efficiency of the method decreases, and the decrease in the ratio of pracnum ne does not change.

Gr1 imobase, the use of carbon adsorbent SKN at the specified ratio makes it possible to significantly reduce the concentration of nitrite in water, which

improves its hygienic properties and increases the degree of water purification up to 80% in dynamic conditions and 70% in static

conditions

Claims (2)

Invention Formula I A method for purifying water from nitrites using carbon adsorbents, which is tactile in that spherical nitrogen-containing coal is used as a carbon adsorbent in order to increase the degree of purification. 2. The method according to claim 1, wherein so that, in order to purify water containing nitrites in the amount of 10-20 mg / l, water is passed through the adsorbent at a rate of 150-170 ml / min at a ratio of 0.7-0.75 l of water per 1 g of sorbent. 3 Capable 1, characterized in that, in order to purify water containing nitrites in an amount of 200-300 mg / l, water is stirred for 10-15 minutes at a ratio of 0.037-0.45 l of water per 1 g of sorbent Table 1 table 2