SU859330A1 - Mineral salt depositing inhibitor in aqueous solutions - Google Patents

Description

(54) INHIBITOR OF SEDIMENTS. MINERAL SALTS IN WATER SOLUTIONS

The invention relates to the prevention of deposits of mineral salts in aqueous solutions and can be used as inhibiting additives in water supply systems, water treatment, boilers, heat exchangers and evaporators of sea and saline stratum water. Inhibitors are known, deposits of mineral salts in aqueous solutions, among which are inorganic polyphosphates {sodium hexametaphosphate, sodium tripolyphosphate) | organic phosphates, phosphonates, esters (HzO3P-CH2 -) (Ca2 where P 1-5. However, this inhibitor of deposits of mineral salts in aqueous solutions has low efficiency when used in evaporators of phosphoric acid and sulphonic acid salts. The disadvantages of these inhibitors are low protective effect against deposition of salt salts in aqueous solution due to hydrolysis of inorganic polyphosphates and phosphoric acid esters to orthophosphate, a significant consumption of inhibitors and their high cost. TBE inhibitor deposits of mineral salts in aqueous solutions derivative 1,3diaminopropanola-2 t2j general type CIS-1) n-SIgROzNg CIS ROzNg saline formation water in the heat exchange apparatus where the heating temperature is in the range Huos above. In addition, the domestic chemical industry does not release this reagent in sufficient quantity due to the scarcity of the original ingredients.

The use of ft-phenoxyvinylphosphonic acid as an inhibitor of the growth of microorganisms of causative agents of purulent infection is known. The synthesis and study of the properties of p -phenoxyvinylphosphonic acid is known 3j.

The known properties of fi-phenoxy vinylphosphonic acid do not determine its use for a new purpose - preventing crystallization of mineral salts in aqueous solutions on the surface of the apparatus.

The purpose of the invention is to prevent the crystallization of mineral salts in aqueous solutions on the surface of the apparatus,

This goal is achieved by using p-phenoxyvinylphosphonic acid of general form as an inhibitor of deposits of mineral salts in aqueous solutions.

HE

one

SbN50SN “CH-P / 0.

k

This connection

has a molecular weight of 210 beats. units and is a white crystalline compound. Tp 101 C, readily soluble in water, ethanol and acetone.

The inhibitory property of | b -phenoxyvinylphosphonic acid is caused by the interaction with ultramicrozores of crystallizing salt, preventing its aggregation and

Reagent

The table shows that the proposed inhibitor is 2.5-5.0 times greater than the known.

Scale inhibitor mineral salts is an inexpensive and affordable product. When using it

transferring the crystallization process from the surface of the apparatus into the bulk of the aqueous phase. This compound is a threshold effect inhibitor.

Example. The assessment of the inhibitory ability is carried out by adding 5–20 mg / l of proposed and known scale inhibitors to 750 ml of saline formation water. 200 ml of saline water containing an inhibitor in the amount of 5.0 and 20 mg / l is poured into stainless steel glasses and then part of the water is evaporated by heating.

In the process of evaporation, the remaining 550 ml of saline water treated with the inhibitor are continuously added, thereby keeping the working volume constant. In all, a series of experiments, the multiple evaporation is 2.75.

As mineralized formation water, water of the following composition is used, mg - eq / l:

2717,596

Total mineralization

K + Ka 1149,022

i135,763 Ca 74.013

Md 1277,595

ce so; 77,991 0,196

HCOj

The density of the water is 1.055 g / m.

The effectiveness of the inhibitors is judged by the amount of the precipitate formed with the addition of the inhibitor and in control: those.

The test results are shown in the table.

Concentration, | Protective mg / lISS elSIiL

get a higher stabilizing effect.

Claims (2)

The invention makes it possible to more fully utilize aqueous solutions in water supply systems, since the use of highly mineralized and saline waters contributes to the creation of closed water supply systems, which is a solution to the problem of reducing freshwater consumption and environmental protection due to reduced wastewater. The invention claims the use of 5-phenoxyvinyl phosphonic acid as an inhibitor of mineral deposits in aqueous solutions. Sources of infochtion taken into account during the examination 1. Inhibitor of deposits of inorganic salts. Ser. Oilfield engineering, M., VNIIOSNG, 1978, p. 12-17. 2. The patent of Great Britain 1 1479381, cl. C 1 C, 1977. 3, USSR Copyright Certificate 611932, cl. From 12 to 1/00, 1978.