SU983080A1 - Method of preventing mineral salt deposits off aqueous solutions - Google Patents

Description

D54) METHOD FOR PREVENTING DEPOSITS IN MINERAL SALTS FROM AQUEOUS RASTVOYUV invention relates to methods predotvr schenn deposition of mineral salts nz aqueous solutions and can be used in the water recycling system metallurgical and chemical enterprise-in isparttel x mineralized water in teploobA ennoy apparatus, np extraction and preparation of flooded oil. Methods are known for preventing the formation of mineral salts in aqueous solutions. by treating water with scale inhibitors, which include inorganic polyphosphates (sodium hexametaphosphate, sodium tripolyphosphate) 1.. However, inorganic polyphosphates under a temperature of + 50 ° C and above are subjected to hydrolysis to orthophosphates, which in turn with calcium non-form form a hardly soluble calcium salt phosphate ./ The closest in technical essence and the achieved result to the proposed method is 2 preventing sedimentation of minerals (salt from aqueous solutions by treatment with a chemical reagent - nitrilotrimethylphosphonic acid of the general formula (OH) jOPHjC - N - CHj - PO (OH) j Cii ,, PO (OH), The disadvantage of this method is insufficient degree of prevention and the deposited mitral salts. The aim of the invention is to increase the degree of sediment prevention. The goal is achieved by the method of preventing the deposition of mineral salts in water solutions by introducing a chemical reagent used as N-Phosphonomethylglycn or its salt. N-Phosphonomethylglycnnnnnnnnnnnnnnnnnnnnnnn N-Phosphonomethylglycol or its salt. Em is a baseless crystalline substance of the general formula where R is H; Na; .K; NH4. with a temperature equal to 314 ° C, soluble in iodine is limited. Alkaline and ammonium salts of its soluble in water. The treatment of water is carried out by known methods (by continuous dosage of influence by periodic injection into the oil reservoir. An aqueous solution of N-phosphonomethylglucose injected under pressure into the treated solution or its salts interact with ultramicrozirculare crystallization of the salt base | impediments to its aggregation, transferring the process is the result of the process. The proposed method differs from the well-known one in that M-phosphonet lglycine or its salt is used as ing & amphitic salt deposits. It is dissolved by introducing 5–30 mg / l of a known proposed scale inhibitor into 750 ml of mineralized reservoir. For example, pour 200 ml of mineralized water treated with an inhibitor in an amount of 5.0 to 10 in a stainless steel glass; 10 , 0; 20.0; 30.0 mg / l, after which part of the water is evaporated by heating. During the evaporation process, 550 ml of saline water treated with the inhibitor are continuously added, thereby keeping the working volume constant. In all batches, the evaporation rate is 2.75. As mineralized formation water, water of the following composition is used: Water density, g / cm1,132 Total mineralization, mg-SQV / l. 6737.956 К 2201.539, 294 М 189.145 С 3349.106 о; -17.905 НСОз1.967 The effectiveness of the proposed and known methods is judged by the amount of precipitate formed on the walls of the metal cup with the addition of an inhibitor and in the control experiment. The table shows data on the evaluation of the effectiveness of sedimentation prevention according to a method known and proposed.

Control

By a known method

(nitrilemethylphosphonate

acid)

According to the pre-prepared method (phosphonomethylillin or its salt): R - AND

13 23 37

40

13

26 40

48

R - Ne

R - K

16 28 43

5 10 -20

52

thirty

IS 27 42 51

five

ID 20 30

Claims (1)

SUMMARY OF THE INVENTION A method for preventing the deposition of mineral salts from aqueous solutions by treating