RU2192396C1 - Composite for water treatment - Google Patents

Abstract

FIELD: chemical technology. SUBSTANCE: invention proposes composite for water treatment comprising sodium bisulfate and 2-hydroxy-1,2,3-propane dicarboxylic acid and sodium citrate additionally in the following ratio of components, wt.-%: sodium bisulfate, 95-97; 2-hydroxy-1,2,3-propane dicarboxylic acid, 1.5-2.5; sodium citrate, 1.5-2.5. Composition provides the prolonged effect and maintains pH value of treated water in the range 7.2-7.5. Invention ensures to carry out treatment of water both in opened reservoirs and in closed ones for acidity neutralization pr for decrease of pH value level. EFFECT: improved properties of composite. 2 ex

Description

 The present invention relates to the field of chemical technology and allows for the processing of water both in open water bodies and in closed ones to neutralize acidity or lower the pH level.

 A method and composition is known from the prior art for cleaning limited water structures, such as swimming pools, by adding small particles of magnesium oxide or hydroxide to the pool. Magnesium oxide neutralizes the acidity of the water without affecting the overall alkalinity, which avoids the tendency to re-contaminate the pool immediately after cleaning. When the pool is very heavily contaminated before cleaning, in order to remove internal contaminants, it is treated by acidifying water with a mixture of hydrochloric acid, sulfamic acid and sodium bisulfate (sodium hydrogen sulfate), which will eliminate its total alkalinity, as was established by the standard neutralization test . After the initial addition of acid, water is continuously or repeatedly tested for general alkalinity to ensure that a sufficient amount of acid has been added. After purification using an acid that can last from several hours to several days, the excess cleaning acid is neutralized by adding magnesium oxide or hydroxide. A neutralizing agent is added in order to neutralize the acid, which in turn will increase the pH of the pool water to about 7.8-8.5 (PCT application WO 93/04006, publ. 4.04.93, class C 02 F 5 / 08, 1/66). The closest composition to the claimed is the composition, which is prepared as follows. It is most preferable to use hydrochloric acid mixed with sulfamic acid in a known composition in the following amounts: 4-12 gallons (US gallon is 3.78 l) of concentrated hydrochloric acid with 10 pounds (1 pound is 453.59 g) of sulfamic acid. If desired, sulfuric acid may also be added, preferably by adding sodium bisulfate (sodium hydrogen sulfate) so that sulfuric acid is formed in situ. In the known composition, sodium hydrogen sulfate is used not as an active component of the composition itself, but as a reagent for producing sulfuric acid in an in situ state (US Patent 4906384, publ. 6.04.90, class C 02 F 5/08). A disadvantage of the known composition is the very rapid acidification of water, after which it is necessary to neutralize it. For the preparation of drinking water, such water will have to be further purified from the reagents introduced into it, and if we talk about water purification in the pool, such treatment will take a lot of time, since the neutralization process is time-consuming.

 The technical result of the use of the proposed composition is its prolonged action in water treatment, it acts gradually and with the introduction of chlorine-containing components that increase the alkalinity of water, allows you to maintain a pH in the range of 7.2-7.5.

 The proposed composition is a powdery means for lowering the pH level in water. The powder is poured directly into the water using any measuring device; the usual dosage is 8 g per cubic meter of water, which leads to a decrease in pH per unit. The use of this drug allows the use of chlorine-containing means for disinfecting water, which by themselves increase the alkalinity of water, to maintain a pH level in the range of 7.2-7.5. This pH level is most comfortable for the human body, skin, hair, mucous surface of the respiratory tract.

 Example 1

 Water into which chlorine-containing components have been introduced for the purpose of disinfection has a pH of 9.3.

 To water add a composition that contains sodium bisulfate - 96 wt.%; 2-hydroxy-1,2,3-propanedicarboxylic acid - 1.5 wt.%; sodium citrate - 2.5 wt. % After 0.5 hours, a water analysis showed that the pH dropped to 7.3. A day later, the same result was obtained. Subsequently, until a new introduction of chlorine-containing components, the pH remained at the same level in water.

 Example 2

 Water into which chlorine-containing components have been introduced for the purpose of disinfection has a pH of 8.8.

 To water add a composition that contains sodium bisulfate - 95 wt.%; 2-hydroxy-1,2,3-propanedicarboxylic acid - 2.5 wt.%; sodium citrate - 2.5 wt. % After one hour, a water analysis showed that the pH dropped to 7.5. A day later, the same result was obtained. Subsequently, until a new introduction of chlorine-containing components, the pH remained at the same level in water.

Claims (1)

Composition for water purification containing sodium bisulfate characterized in that it further comprises 2-hydroxy-1,2,3-propanedicarboxylic acid and sodium citrate in the following ratio, wt. %:
Sodium Bisulfate - 95-97
2-Hydroxy-1,2,3-propanedicarboxylic acid - 1.5-2.5
Sodium Citrate - 1.5-2.5